METHODS OF MODIFYING TRANSCRIPTIONAL REGULATORY NETWORKS IN STEM CELLS

- BioTime, Inc.

The vast differentiation potential of human embryonic and induced pluripotent stem cells, including their potential to cascade through all of the somatic cell lineages and to display the complete transcriptional regulatory network of human biology, has generated interest in deriving scalable, purified, and identified cell types and methods of discovering the precise structure of the human regulatory network. However, the innate capacity of pluripotent cells to display all these lineages is not necessarily reflected during their culture in vitro. The clonal isolation and propagation of progenitors greatly facilitates the generation of highly purified and indentified formulations for research and therapeutic purposes. Nevertheless, other cell types have yet to be isolated and propagated from normal cells and methods of isolating said novel cell types as well as methods for introducing perturbations into the transcriptional regulatory network in order to construct a computer model of the entire human transcriptional regulatory network would greatly benefit basic research as well as manufacturing technology for cell-based therapies.

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Description
CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit under 35 U.S.C. § 119(e) to U.S. Provisional Patent Application Ser. No. 61/406,064, filed Oct. 22, 2010 and U.S. Provisional Patent Application Ser. No. 61/415,244, filed Nov. 18, 2010. The entirety of each of these applications is incorporated herein by reference.

INTRODUCTION

The comprehensive differentiation potential of human pluripotent stem cells such as human embryonic stem (hES) and human induced pluripotent stem (hiPS) cells opens new opportunities in research and cell-based therapy. Their potential to cascade through all of the somatic cell lineages and to display all of the transcriptional pathways of development has generated interest in the use of these cells to map the precise structure of the human transcriptional regulatory network and to generate cell-based therapies for a potential wide array of disorders. However, many in vitro differentiation technologies yield only partially purified cell formulations that may pose the risk of ectopic tissue formation at engraftment sites. Embryoid bodies, or other similar differentiation modalities in vitro contain dozens or hundreds of discrete cell types in a mixture. The clonal isolation and propagation of progenitors greatly facilitates the generation of highly purified and identified formulations for research and therapeutic purposes (see, e.g., West et al, 2008. Regen. Med. 3(3): 287-308; U.S. patent application Ser. No. 11/604,047, filed on Nov. 21, 2006 (US Patent Pub. No. 2008/0070303) and Ser. No. 12/504,630, filed on Jul. 16, 2009 (US Patent Pub. No. 2010/0184033), all of which are incorporated herein by reference). Nevertheless, other cell types have yet to be isolated and propagated from normal pluripotent and multipotent cells. Thus, methods of isolating such novel cell types, as well as methods for introducing perturbations into the transcriptional regulatory network in stem cells in order to construct a computer model of the entire human transcriptional regulatory network, would greatly benefit basic research as well as manufacturing technology for cell-based therapies.

SUMMARY

We have demonstrated that the long initial telomere length of hES cells, together with the robust proliferative capacity of primitive hES-derived progenitor cell types facilitates the industrial expansion and characterization of >140 diverse and scalable clonal lineages with diverse site and temporal-specific homeobox gene expression (West et al, 2008. Regen. Med. 3(3): 287-308; see also U.S. patent application Ser. No. 11/604,047, filed on Nov. 21, 2006 (US Patent Pub. No. 2008/0070303); U.S. patent application Ser. No. 12/504,630, filed on Jul. 16, 2009 (US Patent Pub. No. 2010/0184033); PCT Patent application serial no. PCT/US2011/037969, filed on May 25, 2011 titled “Improved Methods of Screening Embryonic Progenitor Cell Lines”; and U.S. Provisional application 61/496,436, filed on Jun. 13, 2011 titled “Methods and Compositions for Producing Endothelial Progenitor Cells From Pluripotent Stem Cells”, each of which is incorporated herein by reference). We describe a technology to generate such novel and scalable cell lines through the exogenous or endogenous up or down-regulation of the activity of transcriptional regulators. Such exogenously or endogenously-introduced modifications to the activity of transcriptional regulators may include transcription factors constitutively expressed in pluripotent stem cells such as hES cells or somatic cells reprogrammed to pluripotency such as hiPS cells. Such transcriptional regulators can be introduced in a manner that allows the precise regulation of the level and timing of their expression including but not limited to the use of an inducible promoter driving the expression or inhibition of expression of a number of transcription factors. The exogenously-administered transcriptional regulators with precise control of level and timing of expression are introduced in pluripotent stem cells which also have inducible levels of expression of a gene capable of forcing cell proliferation (cell cycle driver). Also described herein are computer algorithms useful in assembling a computer model of the transcriptional regulatory network of human and other animal species.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1: Constitutive expression of the transcription factor OCT4 in clonal iPS-derived progenitorprogenitor cell lines compared to normal hES-derived diverse clonal progenitorprogenitors and normal hES cells.

FIG. 2: Graph of microarray data for LHX3 isoform 1 and RESP18 transcript levels in diverse clonal progenitorprogenitors, cultured somatic cell types, hES cells, and hiPS cells as well as clonal progenitors made from hiPS cells constitutively expressing the transcriptional regulator OCT4.

FIG. 3: Microarray gene expression analysis of the expression of IL19 (Accession number NM_013371.2) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells, and select cell lines of the present invention including 14SMOO8X, 14PEND11X, and 14PEND20X.

FIG. 4: Microarray gene expression analysis of the expression of Gastrin-releasing peptide (GRP) (Accession number NM_001012513.1) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells, and select cell lines of the present invention including 14SKEL14Z, 14SKEL15Z, 14SKEL20Z, 14SKEL24Z, and 14PEND20X.

FIG. 5: Microarray gene expression analysis of the expression of paraoxonase 3 (PON3) (Accession number NM_000940.1) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells, and the select cell lines of the present invention 14PEND2X.

 DETAILED DESCRIPTION OF THE INVENTION Abbreviations

  • AFP—Alpha fetoprotein
  • BMP—Bone Morphogenic Protein
  • BRL—Buffalo rat liver
  • BSA—Bovine serum albumin
  • CD—Cluster Designation
  • cGMP—Current Good Manufacturing Processes
  • CNS—Central Nervous System
  • DMEM—Dulbecco's modified Eagle's medium
  • DMSO—Dimethyl sulphoxide
  • DPBS—Dulbecco's Phosphate Buffered Saline
  • EBs—Embryoid bodies
  • EC—Embryonal carcinoma
  • EC Cells—Embryonal carcinoma cells; hEC cells are human embryonal carcinoma cells
  • ECAPCs—Embryonic cutaneous adipocyte progenitor cells
  • ECM—Extracellular Matrix
  • ED Cells—Embryo-derived cells; hED cells are human ED cells
  • EDTA—Ethylenediamine tetraacetic acid
  • EG Cells—Embryonic germ cells; hEG cells are human EG cells
  • EP Cells—Embryonic progenitor cells are cells derived from primordial stem cells that are more differentiated than primordial stem cells, in that they no longer display markers such as SSEA4, TRA1-60 or TRA-1-81 seropositivity in the case of the human species, but have not fully differentiated. Embryonic progenitor cells correspond to the embryonic stages as opposed to the postnatal stage of development.
  • ES Cells—Embryonic stem cells; hES cells are human ES cells
  • FACS—Fluorescence activated cell sorting
  • FBS—Fetal bovine serum
  • FCS—Fetal calf serum
  • FGF—Fibroblast Growth Factor
  • GFP—Green Fluorescent Protein
  • GMP—Good Manufacturing Practices
  • hED Cells—Human embryo-derived cells
  • hEG Cells—Human embryonic germ cells are stem cells derived from the primordial germ cells of fetal tissue.
  • hEP Cells—Human embryonic progenitor cells are embryonic progenitor cells from the human species.
  • hiPS Cells—Human induced pluripotent stem cells.
  • HSE—Human skin equivalents are mixtures of cells and biological or synthetic matrices manufactured for testing purposes or for therapeutic application in promoting wound repair.
  • HUVEC—Human umbilical vein endothelial cell
  • ICM—Inner cell mass of the mammalian blastocyst-stage embryo.
  • iPS cells—Induced pluripotent stem cells.
  • LOH—Loss of Heterozygosity
  • MEM—Minimal essential medium
  • miRNA—Micro RNA
  • MSC—Mesenchymal Stem Cell
  • NT—Nuclear Transfer
  • PBS—Phosphate buffered saline
  • PEGDA—Polyethylene glycol diacrylate
  • PS fibroblasts—Pre-scarring fibroblasts are fibroblasts derived from the skin of early gestational skin or derived from ED cells that display a prenatal pattern of gene expression in that they promote the rapid healing of dermal wounds without scar formation.
  • RA—Retinoic acid
  • RFU—Relative Fluorescence Units
  • SCNT—Somatic Cell Nuclear Transfer
  • SFM—Serum-Free Medium
  • SPF—Specific Pathogen-Free
  • SV40—Simian Virus 40
  • Tag—Large T-antigen
  • T-EDTA—Trypsin EDTA

Definitions

The term “analytical reprogramming technology” refers to a variety of methods to reprogram the pattern of gene expression of a somatic cell to that of a more pluripotent state, such as that of an iPS, ES, ED, EC or EG cell, wherein the reprogramming occurs in multiple and discrete steps and does not rely simply on the transfer of a somatic cell into an oocyte and the activation of that oocyte. Such techniques include the use of cytoplasm such as EC cell-derived cytoplasm that is enriched in factors such as OCT4, LIN28, SOX2, NANOG, KLF4, and modifications that decrease the expression of SP100 (see U.S. application nos. 60/332,510, filed Nov. 26, 2001; Ser. No. 10/304,020, filed Nov. 26, 2002; PCT application no. PCT/US02/37899, filed Nov. 26, 2003; U.S. application No. 60/705,625, filed Aug. 3, 2005; U.S. application No. 60/729,173, filed Aug. 20, 2005; U.S. application No. 60/818,813, filed Jul. 5, 2006, PCT/US06/30632, filed Aug. 3, 2006.

The term “blastomere/morula cells” refers to blastomere or morula cells in a mammalian embryo or blastomere or morula cells cultured in vitro with or without additional cells including differentiated derivatives of those cells.

The term “cell expressing gene X”, “gene X is expressed in a cell” (or cell population), or equivalents thereof, means that analysis of the cell using a specific assay platform provided a positive result. The converse is also true (i.e., by a cell not expressing gene X, or equivalents, is meant that analysis of the cell using a specific assay platform provided a negative result). Thus, any gene expression result described herein is tied to the specific probe or probes employed in the assay platform (or platforms) for the gene indicated.

The term “cell line” refers to a mortal or immortal population of cells that is capable of propagation and expansion in vitro.

The term “clonal” or alternatively “monoclonal” refers to a population of cells obtained the expansion of a single cell into a population of cells all derived from that original single cells and not containing other cells.

The term “colony in situ differentiation” refers to the differentiation of colonies of cells (e.g., hES, hEG, hiPS, hEC or hED) in situ without removing or disaggregating the colonies from the culture vessel in which the colonies were propagated as undifferentiated stem cell lines. Colony in situ differentiation does not utilize the intermediate step of forming embryoid bodies, though embryoid body formation or other aggregation techniques such as the use of spinner culture may nevertheless follow a period of colony in situ differentiation.

The term “differentiated cells” when used in reference to cells made by methods of this invention from pluripotent stem cells refer to cells having reduced potential to differentiate when compared to the parent pluripotent stem cells. The differentiated cells of this invention comprise cells that could differentiate further (i.e., they may not be terminally differentiated).

The term “direct differentiation” refers to process of differentiating: blastomere cells, morula cells, ICM cells, ED cells, or somatic cells reprogrammed to an undifferentiated state (such as in the process of making iPS cells but before such cells have been purified in an undifferentiated state) directly without the intermediate state of propagating isolated undifferentiated stem cells such as hES cells as undifferentiated cell lines. A nonlimiting example of direct differentiation would be the culture of an intact human blastocyst into culture and the derivation of ED cells without the generation of a human ES cell line as was described (Bongso et al, 1994. Human Reproduction 9:2110).

The term “embryonic stem cells” (ES cells) refers to cells derived from the inner cell mass of blastocysts, blastomeres, or morulae that have been serially passaged as cell lines while maintaining an undifferentiated state (e.g. expressing TERT, OCT4, and SSEA and TRA antigens specific for ES cells of the species). The ES cells may be derived from fertilization of an egg cell with sperm or DNA, nuclear transfer, parthenogenesis, or by means to generate hES cells with hemizygosity or homozygosity in the MHC region. While ES cells have historically been defined as cells capable of differentiating into all of the somatic cell types as well as germ line when transplanted into a preimplantation embryo, candidate ES cultures from many species, including human, have a more flattened appearance in culture and typically do not contribute to germ line differentiation, and are therefore called “ES-like cells.” It is commonly believed that human ES cells are in reality “ES-like”, however, in this application we will use the term ES cells to refer to both ES and ES-like cell lines.

The term “histotypic culture” refers to cultured cells that are aggregated to create a three-dimensional structure with tissue-like cell density such as occurs in the culture of some cells over a layer of agar or such as occurs when cells are cultured in three dimensions in a collagen gel, sponge, or other polymers such as are commonly used in tissue engineering.

The term “human embryo-derived” (“hED”) cells refers to blastomere-derived cells, morula-derived cells, blastocyst-derived cells including those of the inner cell mass, embryonic shield, or epiblast, or other totipotent or pluripotent stem cells of the early embryo, including primitive endoderm, ectoderm, mesoderm, and neural crest and their derivatives up to a state of differentiation correlating to the equivalent of the first eight weeks of normal human development, but excluding cells derived from hES cells that have been passaged as cell lines (see, e.g., U.S. Pat. Nos. 7,582,479; 7,217,569; 6,887,706; 6,602,711; 6,280,718; and U.S. Pat. No. 5,843,780 to Thomson, incorporated herein by reference). The hED cells may be derived from preimplantation embryos produced by fertilization of an egg cell with sperm or DNA, nuclear transfer, or chromatin transfer, an egg cell induced to form a parthenote through parthenogenesis, analytical reprogramming technology, or by means to generate hES cells with hemizygosity or homozygosity in the HLA region.

The term “human embryonic germ cells” (hEG cells) refer to pluripotent stem cells derived from the primordial germ cells of fetal tissue or maturing or mature germ cells such as oocytes and spermatogonial cells, that can differentiate into various tissues in the body. The hEG cells may also be derived from pluripotent stem cells produced by gynogenetic or androgenetic means, i.e., methods wherein the pluripotent cells are derived from oocytes containing only DNA of male or female origin and therefore will comprise all female-derived or male-derived DNA (see U.S. application nos. 60/161,987, filed Oct. 28, 1999; Ser. No. 09/697,297, filed Oct. 27, 2000; Ser. No. 09/995,659, filed Nov. 29, 2001; Ser. No. 10/374,512, filed Feb. 27, 2003; PCT application no. PCT/US/00/29551, filed Oct. 27, 2000; the disclosures of which are incorporated herein in their entirety).

The term “human embryonic stem cells” (hES cells) refers to human ES cells.

The term “iPS cells” or “human iPS cells” refers to cells with properties similar to ES cells or hES cells, including the ability to form all three germ layers when transplanted into immunocompromised mice wherein said iPS cells are derived from cells of varied somatic cell lineages following exposure to de-differentiation factors, for example hES cell-specific transcription factor combinations: KLF4, SOX2, MYC, and OCT4 or SOX2, OCT4, NANOG, and LIN28. Any convenient combination of de-differentiation factors may be used to produce iPS cells. Said iPS cells may be produced by the expression of these genes through vectors such as retroviral, lentiviral or adenoviral vectors as is known in the art, or through the introduction of the factors as proteins, e.g., by permeabilization or other technologies. For descriptions of such exemplary methods see: PCT application number PCT/US2006/030632, filed on Aug. 3, 2006; U.S. application Ser. No. 11/989,988; PCT Application PCT/US2000/018063, filed on Jun. 30, 2000; U.S. application Ser. No. 09/736,268 filed on Dec. 15, 2000; U.S. application Ser. No. 10/831,599, filed Apr. 23, 2004; and U.S. Patent Publication 20020142397 (application. Ser. No. 10/015,824, entitled “Methods for Altering Cell Fate”); U.S. Patent Publication 20050014258 (application. Ser. No. 10/910,156, entitled “Methods for Altering Cell Fate”); U.S. Patent Publication 20030046722 (application. Ser. No. 10/032,191, entitled “Methods for cloning mammals using reprogrammed donor chromatin or donor cells”); and U.S. Patent Publication 20060212952 (application. Ser. No. 11/439,788, entitled “Methods for cloning mammals using reprogrammed donor chromatin or donor cells”) all of which are incorporated herein by reference in their entirety.

The term “ICM cells” refers to the cells of the inner cell mass of a mammalian embryo or the cells of the inner cell mass cultured in vitro with or without the surrounding trophectodermal cells.

The term “oligoclonal” refers to a population of cells that originated from a small population of cells, typically 2-1000 cells, that appear to share similar characteristics such as morphology or the presence or absence of markers of differentiation that differ from those of other cells in the same culture. Oligoclonal cells are isolated from cells that do not share these common characteristics, and are allowed to proliferate, generating a population of cells that are essentially entirely derived from the original population of similar cells.

The term “organotypic culture” refers to cultured cells that are aggregated to create a three-dimensional structure with tissue-like cell density such as occurs in the culture of some cells over a layer of agar, cultured as teratomas in an animal, otherwise grown in a three dimensional culture system but wherein said aggregated cells contain cells of different cell lineages, such as, by way of nonlimiting examples, the combination of epidermal keratinocytes and dermal fibroblasts, or the combination of parenchymal cells with their corresponding tissue stroma, or epithelial cells with mesenchymal cells.

The term “pluripotent stem cells” refers to animal cells capable of differentiating into more than one differentiated cell type. Such cells include hES cells, blastomere/morula cells and their derived hED cells, hiPS cells, hEG cells, hEC cells, and adult-derived cells including mesenchymal stem cells, neuronal stem cells, and bone marrow-derived stem cells. Pluripotent stem cells may be genetically modified or not genetically modified. Genetically modified cells may include markers such as fluorescent proteins to facilitate their identification within the egg.

The term “pluripotent stem cell not derived from a human embryo” (and grammatical equivalents thereof) refers to human plutipotent stem cells whose derivation does not require the destruction of a human embryo at any point during the derivation process, where a human embryo includes any human ovum after fertilisation, any non-fertilised human ovum into which the cell nucleus from a mature human cell has been transplanted, and any non-fertilised human ovum whose division and further development have been stimulated by parthenogenesis. Any of the methods and compositions described herein that employ or are drawn to any human pluripotent stem cells (e.g., hES cells, hED cells, hiPS cells, hEG cells, hEC, and the like) include embodiments in which the human pluripotent stem cells are not derived from a human embryo.

The term “pooled clonal” refers to a population of cells obtained by combining two or more clonal populations to generate a population of cells with a uniformity of markers such as markers of gene expression, similar to a clonal population, but not a population wherein all the cells were derived from the same original clone. Said pooled clonal lines may include cells of a single or mixed genotypes. Pooled clonal lines are especially useful in the cases where clonal lines differentiate relatively early or alter in an undesirable way early in their proliferative lifespan.

The term “primordial stem cells” refers to animal cells capable of differentiating into more than one differentiated cell type. Such cells include hES cells, blastomere/morula cells and their derived hED cells, hiPS cells, hEG cells, hEC cells, and adult-derived cells including mesenchymal stem cells, neuronal stem cells, and bone marrow-derived stem cells. Primordial stem cells may be genetically modified or not genetically modified. Genetically modified cells may include markers such as fluorescent proteins to facilitate their identification in vitro or in vivo.

Before the present invention is described in greater detail, it is to be understood that this invention is not limited to particular embodiments described, as such may, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting, since the scope of the present invention will be limited only by the appended claims.

Where a range of values is provided, it is understood that each intervening value, to the tenth of the unit of the lower limit unless the context clearly dictates otherwise, between the upper and lower limit of that range and any other stated or intervening value in that stated range, is encompassed within the invention. The upper and lower limits of these smaller ranges may independently be included in the smaller ranges and are also encompassed within the invention, subject to any specifically excluded limit in the stated range. Where the stated range includes one or both of the limits, ranges excluding either or both of those included limits are also included in the invention.

Certain ranges are presented herein with numerical values being preceded by the term “about.” The term “about” is used herein to provide literal support for the exact number that it precedes, as well as a number that is near to or approximately the number that the term precedes. In determining whether a number is near to or approximately a specifically recited number, the near or approximating unrecited number may be a number which, in the context in which it is presented, provides the substantial equivalent of the specifically recited number.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although any methods and materials similar or equivalent to those described herein can also be used in the practice or testing of the present invention, representative illustrative methods and materials are now described.

All publications and patents cited in this specification are herein incorporated by reference as if each individual publication or patent were specifically and individually indicated to be incorporated by reference and are incorporated herein by reference to disclose and describe the methods and/or materials in connection with which the publications are cited. The citation of any publication is for its disclosure prior to the filing date and should not be construed as an admission that the present invention is not entitled to antedate such publication by virtue of prior invention. Further, the dates of publication provided may be different from the actual publication dates which may need to be independently confirmed.

It is noted that, as used herein and in the appended claims, the singular forms “a”, “an”, and “the” include plural referents unless the context clearly dictates otherwise. It is further noted that the claims may be drafted to exclude any optional element. As such, this statement is intended to serve as antecedent basis for use of such exclusive terminology as “solely,” “only” and the like in connection with the recitation of claim elements, or use of a “negative” limitation.

As will be apparent to those of skill in the art upon reading this disclosure, each of the individual embodiments described and illustrated herein has discrete components and features which may be readily separated from or combined with the features of any of the other several embodiments without departing from the scope or spirit of the present invention. Any recited method can be carried out in the order of events recited or in any other order which is logically possible.

As summarized above, aspects of the present invention include methods of generating an isolated progenitor cell line by modulating the activity of a transcriptional regulator in a pluripotent stem cell; and inducing the differentiation of said pluripotent stem cell in vitro to generate a progenitor cell line. In certain embodiments, the activity of the transcriptional regulator is increased, where in some instances the transcriptional regulator is selected from: OCT4, SOX2, KLF4, NANOG, MYC, or the gene LIN28, or downregulated in some instances with genes such as SP100 and combinations thereof. Such transcriptional modulators may be introduced in any convenient manner, e.g., via exogenous expression from an expression vector (constitutive expression vector, inducible expression vector, retroviral vector, lentiviral vector, transient expression vector, and the like) or as a protein factor. In certain embodiments, the method further includes the modulation by up or down-regulating the levels of transcription factors or other factors that modify chromatin structure in pluripotent stem cells, or in somatic cells that are subsequently reprogrammed to pluripotency such as iPS cells, wherein said modified pluripotent cells may be used to generate clonal, oligoclonal, or polyclonal progenitor cell lines dependent on the introduced factor or factors. In certain embodiments, the method further includes increasing cell division in the derivatives of pluripotent stem cells, e.g., by providing a cell cycle regulator that overcomes cell cycle inhibition in the pluripotent stem cell (p53, SV40 T-antigen, adenovirus proteins E1A and E1B, papillomavirus proteins E6 and/or E7, CDK4, for example). The isolated progenitor cell lines produced according to aspects of the present invention have unique gene expression and developmental capabilities, including constitutively expressing one or more transcriptional regulator (or transcription factor), including but not limited to OCT4 and LHX3. Any convenient pluripotent stem cell may be employed in the methods, e.g., embryonic stem cells (ES cells), induced pluripotent stem cells (iPS cells), embryo-derived cells (ED cells), embryonic germ cells (EG cells), embryonal carcinoma cells (EC cells), pluripotent stem cell not derived from a human embryo, and the like.

Aspects of the invention also include isolated progenitor cell lines produced by the methods described herein. Exemplary progenitor cell lines include, but are not limited to, 14SKEL7X, 14SKEL18X, 14SKEL12Z, 14SKEL14Z, 14SKEL15Z, 14SKEL20Z, 14SKEL24Z, 14PEND2X, 14PEND11X, 14PEND12X, 14PEND14X, 14PEND20X, 14PEND23X, 14PEND24X, 14SMOO2X, 14SMOO8X, and 14PEND17Z with the specific gene expression profiles described herein.

Methods

In addition to the methods described below, methods that find use in the production and use of the cell lines described herein can be found in the following: U.S. Patent Publication 2008/0070303, entitled “Methods to accelerate the isolation of novel cell strains from pluripotent stem cells and cells obtained thereby”; U.S. patent application Ser. No. 12/504,630, filed on Jul. 16, 2009 (US Patent Pub. No. 2010/0184033) entitled “Methods to accelerate the isolation of novel cell strains from pluripotent stem cells and cells obtained thereby”; and PCT Application PCT/US2006/013519, filed on Apr. 11, 2006, entitled “NOVEL USES OF CELLS WITH PRENATAL PATTERNS OF GENE EXPRESSION”; PCT Application Serial No. PCT/US2006/030632, filed on Aug. 3, 2006, entitled “Improved Methods of Reprogramming Animal Somatic Cells”; U.S. application Ser. No. 11/989,988, filed on Aug. 3, 2006, entitled “Methods of Reprogramming Animal Somatic Cells”; PCT Application PCT/US2000/018063, filed on Jun. 30, 2000; U.S. application Ser. No. 09/736,268 filed on Dec. 15, 2000; U.S. application Ser. No. 10/831,599, filed Apr. 23, 2004; U.S. Patent Publication 2002/0142397 (application. Ser. No. 10/015,824, entitled “Methods for Altering Cell Fate”); U.S. Patent Publication 2005/0014258 (application. Ser. No. 10/910,156, entitled “Methods for Altering Cell Fate”); U.S. Patent Publication 2003/0046722 (application. Ser. No. 10/032,191, entitled “Methods for cloning mammals using reprogrammed donor chromatin or donor cells”); U.S. Patent Publication 2006/0212952 (application. Ser. No. 11/439,788, entitled “Methods for cloning mammals using reprogrammed donor chromatin or donor cells”; U.S. Patent Publication 2009/0068742 entitled “Nuclear Reprogramming Factor”; U.S. Patent Publication 2009/0047263 entitled “Nuclear reprogramming factor and induced pluripotent stem cells”; U.S. Patent Publication 2009/0191159 entitled “Multipotent/pluripotent cells and methods”; U.S. Patent Publication 2008/0280362 entitled “Methods for reprogramming somatic cells”; U.S. Patent Publication 2008/0233610 entitled “Somatic cell reprogramming”; U.S. Provisional application 61/492,329 filed on Jun. 1, 2011 entitled “Embryonic Stem Cell and Embryonic Progenitor-Associated Molecules Useful in the Management of Cancer and Cellular Reprogramming”; and Negorev et al., Cancer Research (2010) vol. 70(23) pp. 9991-10001, entitled “Sp100 as a Potent Tumor Suppressor: Accelerated Senescence and Rapid Malignant Transformation of Human Fibroblasts through Modulation of an Embryonic Stem Cell Program”; each of which is incorporated by reference herein in its entirety.

Methods for the Perturbation of One or More Transcriptional Regulators.

We use the term “transcriptional regulator” to refer to a molecule directly modifying the transcriptional complex in the regulatory regions of a given gene. Therefore, for the purposes of this application, transcription factors or factors that modify chromatin in association with transcription factor complexes such as but not limited to kinases, phosphatases, acetylases, deacetylases, methylases, and demethylases that modify histones are “transcriptional regulators” as defined herein. However, growth factors that bind to cell surface receptors stimulating cell signaling pathways that indirectly modulate transcription complexes are not considered “transcriptional regulators” for the purposes of this application. Pluripotent cells can respond to diverse inductive stimuli, including growth factors and cytokines, to ultimately modulate transcriptional regulators and consequently the differentiated state of the cell. Said inductive stimuli may be utilized to promote the differentiation of pluripotent stem cells into clonal, oligoclonal, or polyclonal lineages of progenitor cell lines as previsouly described (West et al, 2008. Regen. Med. 3(3): 287-308; see also U.S. patent application Ser. No. 11/604,047, filed on Nov. 21, 2006 (US Patent Pub. No. 2008/0070303) and Ser. No. 12/504,630, filed on Jul. 16, 2009 (US Patent Pub. No. 2010/0184033), incorporated herein by reference). Such transcriptional regulators are important in determining the differentiated fate of a cell and include transcription factors, which are generally nuclear or cytoplasmic and can either be constitutively expressed within the cell or be expressed in an inducible manner. Transcription factor proteins bind specific sequences found in the promoter regions of genes (target genes) whose expression they then regulate by either increasing or decreasing the transcription of that gene into RNA (e.g., mRNA). These binding sequences are generally 6-10 base pairs in length and are occasionally found in multiple copies within the promoter regions of target genes.

Although the transcription factor protein-DNA interaction is sequence-specific, the binding site for one given transcription factor may vary by several base pairs within different target genes. Therefore when we describe the specific DNA binding sequence for a transcription factor we refer to the non-variable part of the binding sequence, that is, the transcription factor consensus sequence. For example, the AP-1 transcription factor made up of Fos and Jun proteins binds to the TGACTCA consensus sequence. In comparison, the consensus sequence for the Smad transcription factor family which mediate TGF-β, activin and BMP induced changes in gene expression, is CAGACA.

I. Starting Cell Types

The cell types used in the present invention may include any animal cell type, where the animal is generally a vertebrate, e.g., a mammal, reptile, bird, amphibian, fish, etc. In some embodiments, the animal is a primate, e.g., a human. By way of nonlimiting example, hES cells, somatic cells reprogrammed to pluripotency such as hiPS, or human somatic cells may be used wherein said hES, hiPS, or somatic cells are genetically modified to constitutively express or up or down-regulate a transcriptional regulator or combination of transcriptional regulators as described below. The pluripotent stem cells may result from the reprogramming of a somatic cell that is genetically modified to constitutively overexpress a transcription factor. The constitutive expression may be accomplished by a number of means well-known in the art, including but not limited to stable transfection or retroviral or lentiviral infection. In addition, the transcriptional regulator may be introduced in a manner such that it is transiently expressed or transiently present as a protein, or in the case of somatic cells, the cells, when genetically modified to regulate the expression of a transcriptional regulator, may subsequently be reprogrammed or transdifferentiated such as to an iPS cell line. In these embodiments, the transcriptional regulator modifies the gene expression pattern of the iPS-derived cell types, such as clonal or oligoclonal progenitor cell lines with a prenatal pattern of gene expression.

II. Transcriptional Regulators

The transcriptional regulators of the present invention include transcription factors and chromatin-modifying molecules. The transcription factors of the present invention include those encoded in the human genome as well as homologs and orthologs from other species. Human transcription factors include the following: Apoptosis antagonizing transcription factor (AATF), also known as (aka) CHE1, DED, CHE-1 ACCESSION NUMBER NM_012138.3; activity-dependent neuroprotector homeobox (ADNP), transcript variant 1, aka ADNP1, KIAA0784 ACCESSION NUMBER NM_015339.2; activity-dependent neuroprotector homeobox (ADNP), transcript variant 2, aka ADNP1, KIAA0784 ACCESSION NUMBER NM_181442.1; ADNP homeobox 2 (ADNP2), aka KIAA0863, ZNF508, ACCESSION NUMBER NM_014913.2; AE binding protein 1 (AEBP1), aka FLJ33612, ACLP, ACCESSION NUMBER NM_001129.3; AF4/FMR2 family, member 1 (AFF1), aka MLLT2, MGC134969, AF4-MLL, MLL/AF4, PBM1, AF4, AF-4, ACCESSION NUMBER NM_005935.1; AF4/FMR2 family, member 4 (AFF4), aka AF5Q31, MGC75036, MCEF, ACCESSION NUMBER NM_014423.3; aryl hydrocarbon receptor (AHR), ACCESSION NUMBER NM_001621.3; autoimmune regulator (autoimmune polyendocrinopathy candidiasis ectodermal dystrophy) (AIRE), transcript variant AIRE-1, aka PGA1, APECED, AIRE1, APSI, APS1 ACCESSION NUMBER NM_000383.1; autoimmune regulator (AIRE), transcript variant AIRE-2, aka PGA1, APECED, AIRE1, APSI, APS1 ACCESSION NUMBER NM_000658.1; aristaless-like homeobox 3 (ALX3), aka MGC138212, MGC141988 ACCESSION NUMBER NM_006492.2; aristaless-like homeobox 4 (ALX4), aka KIAA1788, PFM2, FPP, PFM1, PFM ACCESSION NUMBER NM_021926.2; ankyrin repeat domain 30A (ANKRD30A), accession number XM_001131823.1; ankyrin repeat domain 30A (ANKRD30A), accession number XM_001131823.1; androgen receptor (AR), transcript variant 2, aka DHTR, SMAX1, TFM, HUMARA, AIS, NR3C4, KD, SBMA, ACCESSION NUMBER NM_001011645.1; androgen receptor (AR), transcript variant 2, aka DHTR, SMAX1, TFM, HUMARA, AIS, NR3C4, KD, SBMA, ACCESSION NUMBER NM_001011645.1; androgen receptor (dihydrotestosterone receptor, testicular feminization, spinal and bulbar muscular atrophy, Kennedy disease) (AR), transcript variant 1, aka DHTR, SMAX1, TFM, HUMARA, AIS, NR3C4, KD, SBMA, ACCESSION NUMBER NM_000044.2; arginine-fifty homeobox (ARGFX), ACCESSION NUMBER NM_001012659.1; AT rich interactive domain 3A (BRIGHT-like) (ARID3A), aka E2FBP1, DRIL3, BRIGHT, DRILL ACCESSION NUMBER NM_005224.2; AT rich interactive domain 4A (RBP1-like) (ARID4A), transcript variant 3, aka RBP1, RBP-1, RBBP1, ACCESSION NUMBER NM_023001.2; AT rich interactive domain 4A (RBP1-like) (ARID4A), transcript variant 2, aka RBP1, RBP-1, RBBP1, ACCESSION NUMBER NM_023000.2; AT rich interactive domain 4A (RBP1-like) (ARID4A), transcript variant 1, aka RBP1, RBP-1, RBBP1, ACCESSION NUMBER NM_002892.3; aryl hydrocarbon receptor nuclear translocator (ARNT), transcript variant 1, aka HIF-1beta, HIF1BETA, TANGO, HIF1B, ACCESSION NUMBER NM_001668.2; aryl hydrocarbon receptor nuclear translocator (ARNT), transcript variant 2, aka HIF-1beta, HIF1BETA, TANGO, HIF1B, ACCESSION NUMBER NM_178426.1; aryl-hydrocarbon receptor nuclear translocator 2 (ARNT2), aka KIAA0307, ACCESSION NUMBER NM_014862.3; aryl hydrocarbon receptor nuclear translocator-like (ARNTL), transcript variant 2, aka MOP3, BMAL1, BMAL1c, TIC, PASD3, MGC47515, JAP3, ACCESSION NUMBER NM_001030272.1; aryl hydrocarbon receptor nuclear translocator-like (ARNTL), transcript variant 3, aka MOP3, BMAL1, BMAL1c, TIC, PASD3, MGC47515, JAP3, ACCESSION NUMBER NM_001030273.1; aryl hydrocarbon receptor nuclear translocator-like 2 (ARNTL2), aka PASD9, CLIF, BMAL2, MOP9, MGC149671, MGC149672, ACCESSION NUMBER NM_020183.3; aristaless related homeobox (ARX), aka MRX43, MRX29, MRX32, MRXS1, ISSX, MRX38, PRTS, MRX54, MRX36, MRX33, ACCESSION NUMBER NM_139058.1; achaete-scute complex homolog 1 (Drosophila) (ASCL1), aka MASH1, ASH1, HASH1, ACCESSION NUMBER NM_004316.2; achaete-scute complex homolog 2 (Drosophila) (ASCL2), aka ASH2, MASH2, HASH2, ACCESSION NUMBER NM_005170.2; activating transcription factor 1 (ATF1), aka TREB36, FUS/ATF-1, EWS-ATF1, ACCESSION NUMBER NM_005171.3; activating transcription factor 2 (ATF2), aka MGC111558, CRE-BP1, CREB2, TREB7, HB16, ACCESSION NUMBER NM_001880.2; activating transcription factor 3 (ATF3), transcript variant 3, ACCESSION NUMBER NM_001030287.2; activating transcription factor 3 (ATF3), transcript variant 4, ACCESSION NUMBER NM_001040619.1; activating transcription factor 3 (ATF3), transcript variant 4, ACCESSION NUMBER NM_001040619.1; activating transcription factor 4 (tax-responsive enhancer element B67) (ATF4), transcript variant 1, aka TXREB, TAXREB67, CREB2, CREB-2, ACCESSION NUMBER NM_001675.2; activating transcription factor 4 (tax-responsive enhancer element B67) (ATF4), transcript variant 1, aka TXREB, TAXREB67, CREB2, CREB-2, ACCESSION NUMBER NM_001675.2; activating transcription factor 4 (tax-responsive enhancer element B67) (ATF4), transcript variant 2, aka TXREB, TAXREB67, CREB2, CREB-2 ACCESSION NUMBER NM_182810.1; activating transcription factor 5 (ATF5), aka ATFX, FLJ34666, HMFN0395, ACCESSION NUMBER NM_012068.3; activating transcription factor 6 (ATF6), ACCESSION NUMBER NM_007348.2; activating transcription factor 7 (ATF7), aka MGC57182, ATFA, ACCESSION NUMBER NM_006856.1; atonal homolog 1 (Drosophila) (ATOH1), aka MATH-1, ATH1, HATH1, ACCESSION NUMBER NM_005172.1; alpha thalassemia/mental retardation syndrome X-linked (RAD54 homolog, S. cerevisiae) (ATRX), transcript variant 3, aka XNP, ZNF-HX, MRXHF1, XH2, ATR2, SFM1, SHS, MRXS3, RAD54L, RAD54, MGC2094, ACCESSION NUMBER NM_138271.1; alpha thalassemia/mental retardation syndrome X-linked (RAD54 homolog, S. cerevisiae) (ATRX), transcript variant 1, aka XNP, ZNF-HX, MRXHF1, XH2, ATR2, SFM1, SHS, MRXS3, RAD54L, RAD54, MGC2094, ACCESSION NUMBER NM_000489.3; alpha thalassemia/mental retardation syndrome X-linked (RAD54 homolog, S. cerevisiae) (ATRX), transcript variant 1, aka XNP, ZNF-HX, MRXHF1, XH2, ATR2, SFM1, SHS, MRXS3, RAD54L, RAD54, MGC2094, ACCESSION NUMBER NM_000489.2; BTB and CNC homology 1, basic leucine zipper transcription factor 1 (BACH1), transcript variant 3, aka ACCESSION NUMBER NM_001011545.1; BTB and CNC homology 1, basic leucine zipper transcription factor 1 (BACH1), transcript variant 3, ACCESSION NUMBER NM_001011545.1; BTB and CNC homology 1, basic leucine zipper transcription factor 1 (BACH1), transcript variant 1, ACCESSION NUMBER NM_206866.1; BTB and CNC homology 1, basic leucine zipper transcription factor 2 (BACH2), ACCESSION NUMBER NM_021813.1; BTB and CNC homology 1, basic leucine zipper transcription factor 2 (BACH2), ACCESSION NUMBER NM_021813.1; bagpipe homeobox homolog 1 (Drosophila) (BAPX1), aka NKX3B, N10(3-2, MGC138171, N10(3.2, ACCESSION NUMBER NM_001189.2; BarH-like homeobox 1 (BARHL1), ACCESSION NUMBER NM_020064.2; BarH-like homeobox 2 (BARHL2), ACCESSION NUMBER NM_020063.1; BARX homeobox 1 (BARX1), ACCESSION NUMBER NM_021570.3; BARX homeobox 2 (BARX2), aka MGC133368, MGC133369, ACCESSION NUMBER NM_003658.4; basic leucine zipper transcription factor, ATF-like (BATF), aka B-ATF, BATF1, SFA-2, ACCESSION NUMBER NM_006399.2; basic leucine zipper transcription factor, ATF-like 2 (BATF2), aka MGC20410, ACCESSION NUMBER NM_138456.3; basic leucine zipper transcription factor, ATF-like 3 (BATF3), aka JUNDM1, BATF3, SNFT, ACCESSION NUMBER NM_018664.1; bromodomain adjacent to zinc finger domain, 1B (BAZ1B), transcript variant 1, aka WBSCR9, WBSCR10, WSTF, ACCESSION NUMBER NM_023005.2; B-cell CLL/lymphoma 3 (BCL3), aka D19537, BCL4, ACCESSION NUMBER NM_005178.2; B-cell CLL/lymphoma 6 (zinc finger protein 51) (BCL6), transcript variant 1, aka ZBTB27, ZNF51, LAZ3, BCL6A, BCL5, ACCESSION NUMBER NM_001706.2; B-cell CLL/lymphoma 6 (zinc finger protein 51) (BCL6), transcript variant 2, aka ZBTB27, ZNF51, LAZ3, BCL6A, BCL5, ACCESSION NUMBER NM_138931.1; basic helix-loop-helix domain containing, class B, 2 (BHLHB2), aka DEC1, STRA13, Stra14, SHARP-2, ACCESSION NUMBER NM_003670.1; basic helix-loop-helix domain containing, class B, 3 (BHLHB3), aka SHARP1, DEC2, SHARP-1, ACCESSION NUMBER NM_030762.1; basic leucine zipper nuclear factor 1 (BLZF1), aka GOLGIN-45, MGC22497, JEM1, JEM-1, JEM-1s, ACCESSION NUMBER NM_003666.2; basonuclin 1 (BNC1), aka BNC, HsT19447, BSN1, ACCESSION NUMBER NM_001717.2; basonuclin 1 (BNC1), aka BNC, HsT19447, BSN1, ACCESSION NUMBER NM_001717.2; bromodomain containing 8 (BRD8), transcript variant 3, aka SMAP, p120, SMAP2, ACCESSION NUMBER NM_183359.1; bromodomain containing 8 (BRD8), transcript variant 2, aka SMAP, p120, SMAP2, ACCESSION NUMBER NM_139199.1; BRF1 homolog, subunit of RNA polymerase III transcription initiation factor IIIB (S. cerevisiae) (BRF1), transcript variant 1, aka FLJ43034, TAF3C, TAFIII90, MGC105048, BRF, hBRF, TAF3B2, GTF3B, FLJ42674, TFIIIB90, TF3B90, ACCESSION NUMBER NM_001519.2; BRF1 homolog, subunit of RNA polymerase III transcription initiation factor IIIB (S. cerevisiae) (BRF1), transcript variant 1, akaFLJ43034, TAF3C, TAFIII90, MGC105048, BRF, hBRF, TAF3B2, GTF3B, FLJ42674, TFIIIB90, TF3B90, ACCESSION NUMBER NM_001519.2; BRF1 homolog, subunit of RNA polymerase III transcription initiation factor IIIB (S. cerevisiae) (BRF1), transcript variant 2, aka FLJ43034, TAF3C, TAFIII90, MGC105048, BRF, hBRF, TAF3B2, GTF3B, FLJ42674, TFIIIB90, TF3B90, ACCESSION NUMBER NM_145696.1; BTAF1 RNA polymerase II, B-TFIID transcription factor-associated, 170 kDa (Mot1 homolog, S. cerevisiae) (BTAF1), aka TAF172, KIAA0940, TAF(II)170, TAFII170, MOT1, MGC138406, ACCESSION NUMBER NM_003972.2; BTG family, member 2 (BTG2), aka PC3, TIS21, MGC126064, MGC126063, ACCESSION NUMBER NM_006763.2; BUD31 homolog (S. cerevisiae) (BUD31), aka MGC111202, YCR063W, EDG-2, EDG2, G10, ACCESSION NUMBER NM_003910.2; chromosome 11 open reading frame 9 (C11orf9), transcript variant 1, aka MGC10781, KIAA0954, ACCESSION NUMBER NM_013279.1; chromosome 21 open reading frame 66 (C21orf66), transcript variant 1, aka FLJ90561, GCFC, BM-020, ACCESSION NUMBER NM_016631.3; chromosome 21 open reading frame 66 (C21orf66), transcript variant 1, aka FLJ90561, GCFC, BM-020, ACCESSION NUMBER NM_016631.3; chromosome 21 open reading frame 66 (C21orf66), transcript variant 4, aka FLJ90561, GCFC, BM-020, ACCESSION NUMBER NM_058191.3; chromosome 21 open reading frame 66 (C21orf66), transcript variant 2, aka FLJ90561, GCFC, BM-020, ACCESSION NUMBER NM_013329.3; chromosome 2 open reading frame 3 (C2orf3), aka TCF9, GCF, DNABF, ACCESSION NUMBER NM_003203.3; chromosome 5 open reading frame 41 (C5orf41), aka DKFZp686G2059, DKFZp313F2319, ACCESSION NUMBER NM_153607.1; cartilage paired-class homeoprotein 1 (CART1), ACCESSION NUMBER NM_006982.1; core-binding factor, runt domain, alpha subunit 2, translocated to, 2 (CBFA2T2), transcript variant 2, aka MTGR1, EHT, ZMYND3, DKFZp313F2116, ACCESSION NUMBER NM_005093.3; core-binding factor, runt domain, alpha subunit 2, translocated to, 2 (CBFA2T2), transcript variant 2, aka MTGR1, EHT, ZMYND3, DKFZp313F2116, ACCESSION NUMBER NM_005093.3; core-binding factor, runt domain, alpha subunit 2, translocated to, 2 (CBFA2T2), transcript variant 3, aka MTGR1, EHT, ZMYND3, DKFZp313F2116, ACCESSION NUMBER NM_001032999.2; core-binding factor, runt domain, alpha subunit 2, translocated to, 3 (CBFA2T3), transcript variant 1, aka ZMYND4, MTGR2, MTG16, ETO2, ACCESSION NUMBER NM_005187.4; core-binding factor, runt domain, alpha subunit 2, translocated to, 3 (CBFA2T3), transcript variant 1, aka ZMYND4, MTGR2, MTG16, ETO2, ACCESSION NUMBER NM_005187.4; core-binding factor, runt domain, alpha subunit 2, translocated to, 3 (CBFA2T3), transcript variant 2, aka ZMYND4, MTGR2, MTG16, ETO2, ACCESSION NUMBER NM_175931.1; core-binding factor, beta subunit (CBFB), transcript variant 2, aka PEBP2B, ACCESSION NUMBER NM_001755.2; core-binding factor, beta subunit (CBFB), transcript variant 2, aka PEBP2B, ACCESSION NUMBER NM_001755.2; Cas-Br-M (murine) ecotropic retroviral transforming sequence (CBL), aka C-CBL, CBL2, RNF55, ACCESSION NUMBER NM_005188.2; CCR4 carbon catabolite repression 4-like (S. cerevisiae) (CCRN4L), aka CCR4L, MGC142060, MGC142054, MGC4120817, MGC78549, NOC, ACCESSION NUMBER NM_012118.2; caudal type homeobox 1 (CDX1), aka MGC116915, ACCESSION NUMBER NM_001804.2; caudal type homeobox 2 (CDX2), aka CDX3, CDX-3, ACCESSION NUMBER NM_001265.2; caudal type homeobox 4 (CDX4), ACCESSION NUMBER NM_005193.1; CCAAT/enhancer binding protein (C/EBP), alpha (CEBPA), aka CEBP, C/EBP-alpha, ACCESSION NUMBER NM_004364.2; CCAAT/enhancer binding protein (C/EBP), beta (CEBPB), aka CRP2, LAP, IL6DBP, C/EBP-beta, TCF5, NF-IL6, MGC32080, ACCESSION NUMBER NM_005194.2; CCAAT/enhancer binding protein (C/EBP), delta (CEBPD), aka NF-IL6-beta, C/EBP-delta, CELF, CRP3, ACCESSION NUMBER NM_005195.3; CCAAT/enhancer binding protein (C/EBP), epsilon (CEBPE), aka C/EBP-epsilon, CRP1, ACCESSION NUMBER NM_001805.2; CCAAT/enhancer binding protein (C/EBP), gamma (CEBPG), aka GPE1BP, IG/EBP-1, ACCESSION NUMBER NM_001806.2; checkpoint suppressor 1 (CHES1), aka C14orf116, FOXN3, PRO1635, ACCESSION NUMBER NM_005197.2; ceh-10 homeodomain containing homolog (C. elegans) (CHX10), aka HOX10, MCOPCB3, MCOP2, RET1, ACCESSION NUMBER NM_182894.1; Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy-terminal domain, 1 (CITED1), aka MSG1, ACCESSION NUMBER NM_004143.2; Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy-terminal domain, 2 (CITED2), aka P35SRJ, MRG1, ACCESSION NUMBER NM_006079.3; clock homolog (mouse) (CLOCK), aka KIAA0334, ACCESSION NUMBER NM_004898.2; CCHC-type zinc finger, nucleic acid binding protein (CNBP), aka ZCCHC22, CNBP1, RNF163, PROMM, ZNF9, DM2, ACCESSION NUMBER NM_003418.1; CCR4-NOT transcription complex, subunit 7 (CNOT7), transcript variant 2, aka CAF1, hCAF-1, ACCESSION NUMBER NM_054026.2; CCR4-NOT transcription complex, subunit 7 (CNOT7), transcript variant 1, aka CAF1, hCAF-1, ACCESSION NUMBER NM_013354.5; CCR4-NOT transcription complex, subunit 7 (CNOT7), transcript variant 1, aka CAF1, hCAF-1, ACCESSION NUMBER NM_013354.5; CCR4-NOT transcription complex, subunit 8 (CNOT8), aka hCAF1, POP2, CAF1, CALIF, ACCESSION NUMBER NM_004779.4; cAMP responsive element binding protein 1 (CREB1), transcript variant A, aka MGC9284, CREB, ACCESSION NUMBER NM_004379.2; cAMP responsive element binding protein 3 (CREB3), aka LZIP, LUMAN, MGC15333, MGC19782, ACCESSION NUMBER NM_006368.4; cAMP responsive element binding protein 3-like 1 (CREB3L1), aka OASIS, ACCESSION NUMBER NM_052854.2; cAMP responsive element binding protein 3-like 2 (CREB3L2), aka BBF2H7, MGC131709, MGC71006, ACCESSION NUMBER NM_194071.2; cAMP responsive element binding protein 3-like 3 (CREB3L3), aka MGC126557, CREB-H, HYST1481, MGC126553, ACCESSION NUMBER NM_032607.1; cAMP responsive element binding protein 3-like 4 (CREB3L4), aka CREB4, ATCE1, JAL, hJAL, CREB3, AIBZIP, ACCESSION NUMBER NM_130898.2; cAMP responsive element binding protein 5 (CREB5), transcript variant 4, aka CRE-BPA, ACCESSION NUMBER NM_001011666.1; cAMP responsive element binding protein 5 (CREB5), transcript variant 2, aka CRE-BPA, ACCESSION NUMBER NM_004904.2; cAMP responsive element binding protein 5 (CREB5), transcript variant 1, aka CRE-BPA, ACCESSION NUMBER NM_182898.2; cAMP responsive element binding protein 5 (CREB5), transcript variant 1, aka CRE-BPA, ACCESSION NUMBER NM_182898.2; cAMP responsive element binding protein 5 (CREB5), transcript variant 3, aka CRE-BPA, ACCESSION NUMBER NM_182899.3; CREB binding protein (CREBBP), transcript variant 2, aka CBP, KAT3A, RTS, RSTS, ACCESSION NUMBER NM_001079846.1; CREB binding protein (CREBBP), transcript variant 1, aka CBP, KAT3A, RTS, RSTS, ACCESSION NUMBER NM_004380.2; cAMP responsive element binding protein-like 1 (CREBL1), aka FLJ10066, G13, CREB-RP, ACCESSION NUMBER NM_004381.3; cAMP responsive element binding protein-like 2 (CREBL2), aka MGC138362, MGC117311, ACCESSION NUMBER NM_001310.2; CREB/ATF bZIP transcription factor (CREBZF), aka ZF, ACCESSION NUMBER NM_001039618.1; cAMP responsive element modulator (CREM), transcript variant 2, aka MGC111110, ICER, MGC41893, MGC17881, hCREM-2, ACCESSION NUMBER NM_001881.2; cone-rod homeobox (CRX), aka OTX3, CRD, LCAT, CORD2, ACCESSION NUMBER NM_000554.3; cold shock domain protein A (CSDA), aka CSDA1, DBPA, ZONAB, ACCESSION NUMBER NM_003651.3; C-terminal binding protein 1 (CTBP1), transcript variant 1, aka BARS, MGC104684, ACCESSION NUMBER NM_001328.2; C-terminal binding protein 1 (CTBP1), transcript variant 2, aka BARS, MGC104684, ACCESSION NUMBER NM_001012614.1; C-terminal binding protein 1 (CTBP1), transcript variant 2, aka BARS, MGC104684, ACCESSION NUMBER NM_001012614.1; CCCTC-binding factor (zinc finger protein) (CTCF), ACCESSION NUMBER NM_006565.2; cut-like 1, CCAAT displacement protein (Drosophila) (CUTL1), transcript variant 1, aka p110, CASP, CUX, Nbla10317, p75, COY1, p200, p100, CDP, ACCESSION NUMBER NM_181552.1; cut-like homeobox 1 (CUX1), transcript variant 2, aka p110, CASP, GOLIM6, CUX, CDP1, Cux/CDP, Nbla10317, Clox, p75, CUTL1, COY1, p200, p100, CDP, CDP/Cut, ACCESSION NUMBER NM_001913.2; cut-like homeobox 1 (CUX1), transcript variant 3, aka p110, CASP, GOLIM6, CUX, CDP1, Cux/CDP, Nbla10317, Clox, p75, CUTL1, COY1, p200, p100, CDP, CDP/Cut, ACCESSION NUMBER NM_181500.1; cut-like homeobox 2 (CUX2), aka CUTL2, CUX2, CDP2, ACCESSION NUMBER NM_015267.2; dachshund homolog 1 (Drosophila) (DACH1), transcript variant 1, aka DACH, FLJ10138, ACCESSION NUMBER NM_080759.3; dachshund homolog 1 (Drosophila) (DACH1), transcript variant 2, aka DACH, FLJ10138, ACCESSION NUMBER NM_080760.3; dachshund homolog 1 (Drosophila) (DACH1), transcript variant 2, aka DACH, FLJ10138, ACCESSION NUMBER NM_080760.3; D site of albumin promoter (albumin D-box) binding protein (DBP), aka DABP, ACCESSION NUMBER NM_001352.2; developing brain homeobox 1 (DBX1), ACCESSION NUMBER NM_001029865.1; developing brain homeobox 2 (DBX2), aka FLJ16139, ACCESSION NUMBER NM_001004329.2; DNA-damage-inducible transcript 3 (DDIT3), aka MGC4154, CEBPZ, CHOP10, CHOP, GADD153, ACCESSION NUMBER NM_004083.4; distal-less homeobox 1 (DLX1), transcript variant 2, ACCESSION NUMBER NM_001038493.1; distal-less homeobox 1 (DLX1), transcript variant 1, ACCESSION NUMBER NM_178120.4; distal-less homeobox 2 (DLX2), aka TES1, TES-1, ACCESSION NUMBER NM_004405.3; distal-less homeobox 3 (DLX3), aka TDO, ACCESSION NUMBER NM_005220.2; distal-less homeobox 4 (DLX4), transcript variant 1, aka BP1, DLX9, DLX8, DLX7, ACCESSION NUMBER NM_138281.1; distal-less homeobox 4 (DLX4), transcript variant 1, aka BP1, DLX9, DLX8, DLX7, ACCESSION NUMBER NM_138281.1; distal-less homeobox 4 (DLX4), transcript variant 2, aka BP1, DLX9, DLX8, DLX7, ACCESSION NUMBER NM_001934.2; distal-less homeobox 5 (DLX5), ACCESSION NUMBER NM_005221.5; distal-less homeobox 6 (DLX6), aka MGC125283, MGC125282, MGC125285, MGC125284, ACCESSION NUMBER NM_005222.2; diencephalon/mesencephalon homeobox 1 (DMBX1), transcript variant 1, aka OTX3, PAXB, MBX, ACCESSION NUMBER NM_172225.1; doublesex and mab-3 related transcription factor 1 (DMRT1), aka DMT1, ACCESSION NUMBER NM_021951.2; doublesex and mab-3 related transcription factor 2 (DMRT2), transcript variant 1, ACCESSION NUMBER NM_006557.4; doublesex and mab-3 related transcription factor 2 (DMRT2), transcript variant 1, ACCESSION NUMBER NM_006557.4; doublesex and mab-3 related transcription factor 3 (DMRT3), aka MGC142144, DMRTA3, ACCESSION NUMBER NM_021240.2; DMRT-like family A1 (DMRTA1), aka MGC163307, DMO, MGC163309, ACCESSION NUMBER NM_022160.1; DMRT-like family B with proline-rich C-terminal, 1 (DMRTB1), ACCESSION NUMBER NM_033067.1; DMRT-like family C2 (DMRTC2), ACCESSION NUMBER NM_001040283.1; cyclin D binding myb-like transcription factor 1 (DMTF1), aka DMP1, DMTF, hDMP1, FLJ41265, ACCESSION NUMBER NM_021145.2; divergent-paired related homeobox (DPRX), ACCESSION NUMBER NM_001012728.1; DR1-associated protein 1 (negative cofactor 2 alpha) (DRAP1), aka NC2-alpha, ACCESSION NUMBER NM_006442.2; dorsal root ganglia homeobox (DRGX), aka DRG11, PRRXL1, ACCESSION NUMBER NM_001080520.1; double homeobox, 1 (DUX1), ACCESSION NUMBER NM_012146.1; double homeobox, 2 (DUX2), ACCESSION NUMBER NM_012147.2; double homeobox, 3 (DUX3), ACCESSION NUMBER NM_012148.2; double homeobox, 4 (DUX4), aka DUX10, ACCESSION NUMBER NM_033178.2; double homeobox 4c (DUX4C), ACCESSION NUMBER NM_001099853.1; double homeobox, 5 (DUX5), ACCESSION NUMBER NM_012149.2; double homeobox A (DUXA), ACCESSION NUMBER NM_001012729.1; E2F transcription factor 1 (E2F1), aka E2F-1, RBP3, RBBP3, ACCESSION NUMBER NM_005225.1; E2F transcription factor 2 (E2F2), aka E2F-2, ACCESSION NUMBER NM_004091.2; E2F transcription factor 3 (E2F3), aka KIAA0075, E2F-3, MGC104598, DKFZp686C18211, ACCESSION NUMBER NM_001949.2; E2F transcription factor 4, p107/p130-binding (E2F4), aka E2F-4, ACCESSION NUMBER NM_001950.3; E2F transcription factor 5, p130-binding (E2F5), transcript variant 1, aka E2F-5, ACCESSION NUMBER NM_001951.3; E2F transcription factor 6 (E2F6), aka E2F-6, MGC111545, ACCESSION NUMBER NM_198256.2; E2F transcription factor 6 (E2F6), transcript variant e, aka E2F-6, MGC111545, accession number NR_003095.1; E2F transcription factor 7 (E2F7), aka FLJ12981, ACCESSION NUMBER NM_203394.2; E2F transcription factor 8 (E2F8), aka FLJ23311, ACCESSION NUMBER NM_024680.2; E4F transcription factor 1 (E4F1), aka MGC99614, E4F, ACCESSION NUMBER NM_004424.3; ECSIT homolog (Drosophila) (ECSIT), aka SITPEC, ACCESSION NUMBER NM_016581.2; endothelial differentiation-related factor 1 (EDF1), transcript variant alpha, aka EDF-1, MBF1, MGC9058, ACCESSION NUMBER NM_003792.2; endothelial differentiation-related factor 1 (EDF1), transcript variant alpha, aka EDF-1, MBF1, MGC9058, ACCESSION NUMBER NM_003792.2; early growth response 1 (EGR1), aka G0S30, AT225, TIS8, ZNF225, NGFI-A, KROX-24, ZIF-268, ACCESSION NUMBER NM_001964.2; early growth response 2 (Krox-20 homolog, Drosophila) (EGR2), aka KROX20, FLJ14547, DKFZp686J1957, CMT4E, CMT1D, ACCESSION NUMBER NM_000399.2; early growth response 3 (EGR3), aka PILOT, MGC138484, ACCESSION NUMBER NM_004430.2; early growth response 3 (EGR3), aka PILOT, MGC138484, ACCESSION NUMBER NM_004430.2; early growth response 4 (EGR4), aka NGFI-C, NGFIC, PAT133, ACCESSION NUMBER NM_001965.1; ets homologous factor (EHF), aka ESE3, ESEJ, ACCESSION NUMBER NM_012153.3; E74-like factor 1 (ets domain transcription factor) (ELF1), ACCESSION NUMBER NM_172373.2; E74-like factor 2 (ets domain transcription factor) (ELF2), transcript variant 2, aka NERF, NERF-1A, NERF-2, EU32, NERF-1B, ACCESSION NUMBER NM_006874.2; E74-like factor 2 (ets domain transcription factor) (ELF2), transcript variant 2, aka NERF, NERF-1A, NERF-2, EU32, NERF-1B, ACCESSION NUMBER NM_006874.2; E74-like factor 2 (ets domain transcription factor) (ELF2), transcript variant 1, aka NERF, NERF-1A, NERF-2, EU32, NERF-1B, ACCESSION NUMBER NM_201999.1; E74-like factor 3 (ets domain transcription factor, epithelial-specific) (ELF3), aka ESX, ESE-1, EPR-1, ERT, ACCESSION NUMBER NM_004433.3; E74-like factor 4 (ets domain transcription factor) (ELF4), aka MEF, ELFR, ACCESSION NUMBER NM_001421.2; E74-like factor 5 (ets domain transcription factor) (ELF5), transcript variant 2, aka ESE2, ACCESSION NUMBER NM_001422.2; E74-like factor 5 (ets domain transcription factor) (ELF5), transcript variant 1, aka ESE2, ACCESSION NUMBER NM_198381.1; ELK1, member of ETS oncogene family (ELK1), ACCESSION NUMBER NM_005229.2; ELK3, ETS-domain protein (SRF accessory protein 2) (ELK3), aka SAP2, NET, ERP, ACCESSION NUMBER NM_005230.2; ELK4, ETS-domain protein (SRF accessory protein 1) (ELK4), transcript variant a, aka SAP1, ACCESSION NUMBER NM_001973.2; ELK4, ETS-domain protein (SRF accessory protein 1) (ELK4), transcript variant a, aka SAP1, ACCESSION NUMBER NM_001973.2; ELK4, ETS-domain protein (SRF accessory protein 1) (ELK4), transcript variant b, aka SAP1, ACCESSION NUMBER NM_021795.2; empty spiracles homolog 1 (Drosophila) (EMX1), ACCESSION NUMBER NM_004097.1, empty spiracles homeobox 1 (EMX1), transcript variant 2, ACCESSION NUMBER NM_001040404.1, empty spiracles homeobox 2 (EMX2), ACCESSION NUMBER NM_004098.2; engrailed homeobox 1 (EN1), ACCESSION NUMBER NM_001426.3; engrailed homeobox 2 (EN2), aka AUTS1, AUTS10, ACCESSION NUMBER NM_001427.3; eomesodermin homolog (Xenopus laevis) (EOMES), aka TBR2, ACCESSION NUMBER NM_005442.2; E1A binding protein p300 (EP300), aka p300, KAT3B, ACCESSION NUMBER NM_001429.2; endothelial PAS domain protein 1 (EPAS1), aka HIF2A, HLF, ECYT4, MOP2, PASD2, ACCESSION NUMBER NM_001430.3; Ets2 repressor factor (ERF), aka PE-2 ACCESSION NUMBER NM_006494.1; v-ets erythroblastosis virus E26 oncogene homolog (avian) (ERG), transcript variant 1, aka erg-3, p55, ACCESSION NUMBER NM_182918.2; v-ets erythroblastosis virus E26 oncogene homolog (avian) (ERG), transcript variant 1, aka erg-3, p55, ACCESSION NUMBER NM_182918.2; v-ets erythroblastosis virus E26 oncogene homolog (avian) (ERG), transcript variant 2, aka erg-3, p55, ACCESSION NUMBER NM_004449.3; estrogen receptor 1 (ESR1), aka major ORF, ESR, Era, ER, NR3A1, ESRA, DKFZp686N23123, ACCESSION NUMBER NM_000125.2; estrogen receptor 2 (ER beta) (ESR2), transcript variant b, aka ESR-BETA, ESTRB, ESRB, Erb, ER-BETA, NR3A2, ACCESSION NUMBER NM_001040275.1; estrogen receptor 2 (ER beta) (ESR2), transcript variant b, aka ESR-BETA, ESTRB, ESRB, Erb, ER-BETA, NR3A2, ACCESSION NUMBER NM_001040275.1; estrogen-related receptor alpha (ESRRA), aka NR3B1, ERRalpha, ERRa, ERR1, ESRL1, ACCESSION NUMBER NM_004451.3; estrogen-related receptor beta (ESRRB), aka ESRL2, ERRbeta, NR3B2, ERRb, ERRbeta-2, ERR2, ACCESSION NUMBER NM_004452.2; estrogen-related receptor gamma (ESRRG), transcript variant 1, aka DKFZp781L1617, ERR3, KIAA0832, FLJ16023, NR3B3; ACCESSION NUMBER NM_001438.2; estrogen-related receptor gamma (ESRRG), transcript variant 2, aka DKFZp781L1617, ERR3, KIAA0832, FLJ16023, NR3B3, ACCESSION NUMBER NM_206594.1; estrogen-related receptor gamma (ESRRG), transcript variant 2, aka DKFZp781L1617, ERR3, KIAA0832, FLJ16023, NR3B3, ACCESSION NUMBER NM_206594.1; ESX homeobox 1 (ESX1), aka ESXR1, ESX1L, ACCESSION NUMBER NM_153448.2; v-ets erythroblastosis virus E26 oncogene homolog 1 (avian) (ETS1), aka ETS-1, FLJ10768, EWSR2, ACCESSION NUMBER NM_005238.2; v-ets erythroblastosis virus E26 oncogene homolog 2 (avian) (ETS2), ACCESSION NUMBER NM_005239.4; ets variant gene 1 (ETV1), aka MGC120533, DKFZp781L0674, MGC104699, ER81, MGC120534, ACCESSION NUMBER NM_004956.3; ets variant gene 2 (ETV2), aka MGC129835, ETSRP71, ER71, MGC129834, ACCESSION NUMBER NM_014209.1; ets variant 3 (ETV3), aka bA110J1.4, PE-1, PE1, METS, ACCESSION NUMBER NM_005240.1; ets variant 3-like (ETV3L), aka FLJ16478, ACCESSION NUMBER NM_001004341.1; ets variant 4 (ETV4), transcript variant 1, aka PEA3, E1A-F, E1AF, PEAS3, ACCESSION NUMBER NM_001986.2; ets variant gene 4 (E1A enhancer binding protein, E1AF) (ETV4), aka E1A-F, PEA3, E1AF, PEAS3, ACCESSION NUMBER NM_001986.1; ets variant gene 5 (ets-related molecule) (ETV5), aka ERM, ACCESSION NUMBER NM_004454.1; ets variant gene 5 (ets-related molecule) (ETV5), aka ERM, ACCESSION NUMBER NM_004454.1; ets variant 6 (ETV6), aka TEL, TEL/ABL, ACCESSION NUMBER NM_001987.4; ecotropic viral integration site 1 (EVI1), aka EVI-1, PRDM3, MGC163392, MDS1-EVI1, AML1-EVI-1, ACCESSION NUMBER NM_005241.1; even-skipped homeobox 1 (EVX1), ACCESSION NUMBER NM_001989.3; even-skipped homeobox 2 (EVX2), ACCESSION NUMBER NM_001080458.1; FEV (ETS oncogene family) (FEV), aka PET-1, HSRNAFEV, ACCESSION NUMBER NM_017521.2; Friend leukemia virus integration 1 (FLI1), aka SIC-1, EWSR2, ACCESSION NUMBER NM_002017.2; FLJ46838 protein (FLJ46838), ACCESSION NUMBER NM_001007546.2; formin-like 2 (FMNL2), aka FLJ37546, FHOD2, ACCESSION NUMBER NM_052905.3; v-fos FBJ murine osteosarcoma viral oncogene homolog (FOS), aka c-fos, ACCESSION NUMBER NM_005252.2; FBJ murine osteosarcoma viral oncogene homolog B (FOSB), aka GOS3, G0S3, MGC42291, GOSB, DKFZp686C0818, ACCESSION NUMBER NM_006732.1; FOS-like antigen 1 (FOSL1), aka fra-1, FRA1, ACCESSION NUMBER NM_005438.2; FOS-like antigen 2 (FOSL2), aka FRA2, FLJ23306, ACCESSION NUMBER NM_005253.3; forkhead box A1 (FOXA1), aka MGC33105, TCF3A, HNF3A, ACCESSION NUMBER NM_004496.2; forkhead box A2 (FOXA2), transcript variant 1, aka MGC19807, TCF3B, HNF3B, ACCESSION NUMBER NM_021784.3; forkhead box A2 (FOXA2), transcript variant 2, aka MGC19807, TCF3B, HNF3B, ACCESSION NUMBER NM_153675.1; forkhead box A2 (FOXA2), transcript variant 2, aka MGC19807, TCF3B, HNF3B, ACCESSION NUMBER NM_153675.1; forkhead box A3 (FOXA3), aka HNF3G, TCF3G, MGC10179, FKHH3, ACCESSION NUMBER NM_004497.2; forkhead box B1 (FOXB1), aka FKH5, HFKH-5, ACCESSION NUMBER NM_012182.2; forkhead box B2 (FOXB2), aka bA159H20.4, ACCESSION NUMBER NM_001013735.1; forkhead box C1 (FOXC1), aka FREAC3, FKHL7, IHG1, ARA, IRID1, IGDA, ACCESSION NUMBER NM_001453.1; forkhead box C2 (MFH-1, mesenchyme forkhead 1) (FOXC2), aka MFH1, MFH-1, FKHL14, LD, ACCESSION NUMBER NM_005251.1; forkhead box D1 (FOXD1), aka FREAC4, FKHL8, ACCESSION NUMBER NM_004472.2; forkhead box D2 (FOXD2), aka FREAC-9, FKHL17, FREAC9, ACCESSION NUMBER NM_004474.3; forkhead box D3 (FOXD3), aka HFH2, Genesis, ACCESSION NUMBER NM_012183.1; forkhead box D4 (FOXD4), aka FOXD4A, FKHL9, MGC105106, FREAC5, ACCESSION NUMBER NM_207305.2; forkhead box D4-like 1 (FOXD4L1), aka bA395L14.1, ACCESSION NUMBER NM_012184.3; FOXD4-like 2 (FOXD4L2), aka MGC119257, ACCESSION NUMBER NM_199135.1; forkhead box D4-like 3 (FOXD4L3), aka FOXD6, ACCESSION NUMBER NM_199358.1; forkhead box E1 (thyroid transcription factor 2) (FOXE1), aka TTF-2, TTF2, TITF2, HFKH4, FOXE2, FKHL15, HFKL5, ACCESSION NUMBER NM_004473.3; forkhead box E3 (FOXE3), aka FREAC8, FKHL12, ASMD, ACCESSION NUMBER NM_012186.2; forkhead box E3 (FOXE3), aka FREAC8, FKHL12, ASMD, ACCESSION NUMBER NM_012186.2; forkhead box F1 (FOXF1), aka MGC105125, FKHL5, FREAC1, ACCESSION NUMBER NM_001451.2; forkhead box F2 (FOXF2), aka FREAC2, FKHL6, ACCESSION NUMBER NM_001452.1; forkhead box G1 (FOXG1), aka FKHL1, KHL2, HFK3, HBF2, FOXG1C, QIN, FKHL2, HBF-2, HBF-1, FKH2, HFK1, FKHL4, HBF-G2, BF2, FHKL3, BF1, HFK2, HBF-3, FOXG1B, FKHL3, FOXG1A, ACCESSION NUMBER NM_005249.3; forkhead box H1 (FOXH1), aka FAST1, FAST-1, ACCESSION NUMBER NM_003923.1; forkhead box I1 (FOXI1), transcript variant 1, aka HFH3, FKHL10, MGC34197, FREAC6, ACCESSION NUMBER NM_012188.4; forkhead box I1 (FOXI1), transcript variant 1, aka HFH3, FKHL10, MGC34197, FREAC6, ACCESSION NUMBER NM_012188.4; forkhead box I2 (FOXI2), aka FOXI2, FLJ46831, ACCESSION NUMBER NM_207426.1; forkhead box J1 (FOXJ1), aka HFH-4, HFH4, MGC35202, FKHL13, ACCESSION NUMBER NM_001454.2; forkhead box J2 (FOXJ2), aka FHX, ACCESSION NUMBER NM_018416.2; forkhead box J3 (FOXJ3), aka MGC176686, MGC165036, ACCESSION NUMBER NM_014947.3; forkhead box K1 (FOXK1), aka FLJ14977, FOXK1, ACCESSION NUMBER NM_001037165.1; forkhead box K1 (FOXK1), aka FLJ14977, FOXK1L, ACCESSION NUMBER NM_001037165.1; forkhead box K2 (FOXK2), aka ILF-1, ILF, ILF1, ACCESSION NUMBER NM_004514.3; forkhead box K2 (FOXK2), aka ILF-1, ILF, ILF1, ACCESSION NUMBER NM_004514.3; forkhead box L1 (FOXL1), aka FREAC7, FKH6, FKHL11, ACCESSION NUMBER NM_005250.2; forkhead box L2 (FOXL2), aka BPES1, PINTO, BPES, PFRK, POF3, ACCESSION NUMBER NM_023067.2; forkhead box L2 (FOXL2), accession number XM_001131060.1; forkhead box M1 (FOXM1), transcript variant 3, aka TGT3, PIG29, HFH-11, FKHL16, MPP-2, INS-1, HFH11, MPP2, TRIDENT, MPHOSPH2, HNF-3, FOXM1B, ACCESSION NUMBER NM_202003.1; forkhead box M1 (FOXM1), transcript variant 2, aka TGT3, PIG29, HFH-11, FKHL16, MPP-2, INS-1, HFH11, MPP2, TRIDENT, MPHOSPH2, HNF-3, FOXM1B, ACCESSION NUMBER NM_021953.2; forkhead box N1 (FOXN1), aka FKHL20, WHN, RONU, ACCESSION NUMBER NM_003593.2; forkhead box N2 (FOXN2), aka HTLF, ACCESSION NUMBER NM_002158.3; forkhead box N3 (FOXN3), transcript variant 1, aka CHES1, C14orf116, PRO1635, ACCESSION NUMBER NM_001085471.1; forkhead box N4 (FOXN4), aka FLJ35967, ACCESSION NUMBER NM_213596.1; forkhead box O1 (FOXO1), aka FKHR, FKH1, FOXO1A, ACCESSION NUMBER NM_002015.3; forkhead box O3 (FOXO3), transcript variant 2, aka FOXO2, FKHRL1, AF6q21, DKFZp781A0677, MGC12739, FKHRL1P2, MGC31925, FOXO3A, ACCESSION NUMBER NM_201559.2; forkhead box 03 (FOXO3), transcript variant 1, aka FOXO2, FKHRL1, AF6q21, DKFZp781A0677, MGC12739, FKHRL1P2, MGC31925, FOXO3A ACCESSION NUMBER NM_001455.3; forkhead box 04 (FOXO4), aka AFX1, AFX, FOXO4, MGC120490, MLLT7, ACCESSION NUMBER NM_005938.2; forkhead box P1 (FOXP1), transcript variant 2, aka MGC99551, QRF1, hFKH1B, MGC88572, 12CC4, HSPC215, MGC12942, FLJ23741, ACCESSION NUMBER NM_001012505.1; forkhead box P1 (FOXP1), transcript variant 1, aka MGC99551, QRF1, hFKH1B, MGC88572, 12CC4, HSPC215, MGC12942, FLJ23741, ACCESSION NUMBER NM_032682.4; forkhead box P1 (FOXP1), transcript variant 1, aka MGC99551, QRF1, hFKH1B, MGC88572, 12CC4, HSPC215, MGC12942, FLJ23741, ACCESSION NUMBER NM_032682.4; forkhead box P2 (FOXP2), transcript variant 2, aka TNRC10, SPCH1, DKFZp686H1726, CAGH44, ACCESSION NUMBER NM_148898.2; forkhead box P2 (FOXP2), transcript variant 1, aka TNRC10, SPCH1, DKFZp686H1726, CAGH44, ACCESSION NUMBER NM_014491.1; forkhead box P3 (FOXP3), aka PIDX, AIID, MGC141961, JM2, DIETER, XPID, MGC141963, IPEX, ACCESSION NUMBER NM_014009.2; forkhead box P4 (FOXP4), transcript variant 1, aka F1144184, FLJ40908, hFKHLA, ACCESSION NUMBER NM_001012426.1; forkhead box P4 (FOXP4), transcript variant 1, aka F1144184, FLJ40908, hFKHLA, ACCESSION NUMBER NM_001012426.1; forkhead box Q1 (FOXQ1), aka HFH1, ACCESSION NUMBER NM_033260.3; forkhead box R1 (FOXR1), aka FOXN5, MGC149486, DLNB13, ACCESSION NUMBER NM_181721.2; forkhead box R1 (FOXR1), aka FOXN5, MGC149486, DLNB13, ACCESSION NUMBER NM_181721.2; forkhead box R2 (FOXR2), aka MGC21658, FOXN6, ACCESSION NUMBER NM_198451.1; forkhead box 51 (FOXS1), aka MGC4544, FREAC10, ACCESSION NUMBER NM_004118.3; far upstream element (FUSE) binding protein 1 (FUBP1), aka FBP, FUBP, ACCESSION NUMBER NM_003902.3; GA binding protein transcription factor, alpha subunit 60 kDa (GABPA), aka NRF2A, NFT2, E4TF1-60, E4TF1A, NRF2, ACCESSION NUMBER NM_002040.2; GA binding protein transcription factor, beta subunit 2 (GABPB2), transcript variant gamma-1, aka NRF2B2, GABPB, E4TF1-47, E4TF1, NRF2B1, E4TF1B, E4TF1-53, BABPB2, GABPB1, ACCESSION NUMBER NM_002041.3; GA binding protein transcription factor, beta subunit 2 (GABPB2), transcript variant gamma-2, aka NRF2B2, GABPB, E4TF1-47, E4TF1, NRF2B1, E4TF1B, E4TF1-53, BABPB2, GABPB1, ACCESSION NUMBER NM_016655.3; GA binding protein transcription factor, beta subunit 2 (GABPB2), aka RP11-68I18.1, ACCESSION NUMBER NM_144618.1; growth arrest-specific 7 (GAS7), transcript variant a, aka MGC1348, MLL/GAS7, KIAA0394, ACCESSION NUMBER NM_003644.2; growth arrest-specific 7 (GAS7), transcript variant b, aka MGC1348, MLL/GAS7, KIAA0394, ACCESSION NUMBER NM_201432.1; growth arrest-specific 7 (GAS7), transcript variant c, aka MGC1348, MLL/GAS7, KIAA0394, ACCESSION NUMBER NM_201433.1; growth arrest-specific 7 (GAS7), transcript variant c, aka MGC1348, MLL/GAS7, KIAA0394, ACCESSION NUMBER NM_201433.1; GATA binding protein 1 (globin transcription factor 1) (GATA1), aka ERYF1, GF1, NFE1, ACCESSION NUMBER NM_002049.2; GATA binding protein 2 (GATA2), aka NFE1B, MGC2306, ACCESSION NUMBER NM_032638.3; GATA binding protein 3 (GATA3), transcript variant 2, aka HDR, MGC5199, MGC5445, MGC2346, ACCESSION NUMBER NM_002051.2; GATA binding protein 4 (GATA4), aka MGC126629, ACCESSION NUMBER NM_002052.2; GATA binding protein 5 (GATA5), aka bB379O24.1, ACCESSION NUMBER NM_080473.3; GATA binding protein 6 (GATA6), ACCESSION NUMBER NM_005257.3; GATA zinc finger domain containing 1 (GATAD1), aka FLJ40695, FLJ22489, ODAG, RG083M05.2, ACCESSION NUMBER NM_021167.3; GATA zinc finger domain containing 2A (GATAD2A), aka FLJ20085, p66alpha, ACCESSION NUMBER NM_017660.2; GATA zinc finger domain containing 2B (GATAD2B), aka MGC138285, P66beta, RP11-216N14.6, KIAA1150, FLJ37346, MGC138257, ACCESSION NUMBER NM_020699.1; gastrulation brain homeobox 2 (GBX2), ACCESSION NUMBER NM_001485.2; glial cells missing homolog 1 (Drosophila) (GCM1), aka GCMA, hGCMa, ACCESSION NUMBER NM_003643.2; glioma-associated oncogene homolog 1 (zinc finger protein) (GLI1), aka GLI, ACCESSION NUMBER NM_005269.1; GLI-Kruppel family member GLI2 (GLI2), aka HPE9, THP2, ACCESSION NUMBER NM_005270.3; GLI-Kruppel family member GLI3 (Greig cephalopolysyndactyly syndrome) (GLI3), aka PHS, PAP-A, PAPA1, GCPS, PAPB, PAPA, ACLS, PPDIV, ACCESSION NUMBER NM_000168.2; GLIS family zinc finger 3 (GLIS3), transcript variant 2, aka ZNF515, FLJ38999, MGC33662, FLJ90578, ACCESSION NUMBER NM_152629.3; GLIS family zinc finger 3 (GLIS3), transcript variant 2, aka ZNF515, FLJ38999, MGC33662, FLJ90578, ACCESSION NUMBER NM_152629.3; GLIS family zinc finger 3 (GLIS3), transcript variant 2, aka ZNF515, FLJ38999, MGC33662, FLJ90578, ACCESSION NUMBER NM_152629.3; GLIS family zinc finger 3 (GLIS3), transcript variant 2, aka ZNF515, FLJ38999, MGC33662, FLJ90578, ACCESSION NUMBER NM_152629.3; glucocorticoid modulatory element binding protein 1 (GMEB1), transcript variant 2, aka P96PIF, PIF96, ACCESSION NUMBER NM_024482.1; glucocorticoid modulatory element binding protein 1 (GMEB1), transcript variant 2, aka P96PIF, PIF96, ACCESSION NUMBER, NM_024482.1; goosecoid homeobox (GSC), ACCESSION NUMBER NM_173849.2; goosecoid homeobox 2 (GSC2), aka GSCL, ACCESSION NUMBER NM_005315.1; GS homeobox 1 (GSX1), aka Gsh-1, GSH1, ACCESSION NUMBER NM_145657.1; GS homeobox 2 (GSX2), aka GSH2, ACCESSION NUMBER NM_133267.1; general transcription factor HA, 2, 12 kDa (GTF2A2), aka TFIIA, TF2A2, HsT18745, ACCESSION NUMBER NM_004492.1; general transcription factor IIH, polypeptide 2, 44 kDa (GTF2H2), aka T-BTF2P44, MGC102806, BTF2, TFIIH, BTF2P44, ACCESSION NUMBER NM_001515.3; general transcription factor IIH, polypeptide 3, 34 kDa (GTF2H3), aka BTF2, TFIIH, ACCESSION NUMBER NM_001516.3; general transcription factor IIH, polypeptide 4, 52 kDa (GTF2H4), aka TFIIH, ACCESSION NUMBER NM_001517.4; general transcription factor II, i (GTF2I), transcript variant 3, aka IB291, DIWS, TFII-I, SPIN, BAP135, BAP-135, BTKAP1, WBSCR6, WBS, ACCESSION NUMBER NM_033001.1; general transcription factor II, i (GTF2I), transcript variant 1, aka IB291, DIWS, TFII-I, SPIN, BAP135, BAP-135, BTKAP1, WBSCR6, WBS, ACCESSION NUMBER NM_032999.1; heart and neural crest derivatives expressed 1 (HAND1), aka Thing1, eHand, Hxt, ACCESSION NUMBER NM_004821.1; heart and neural crest derivatives expressed 2 (HAND2), aka MGC125304, Thing2, Hed, dHand, MGC125303, DHAND2, FLJ16260, ACCESSION NUMBER NM_021973.2; host cell factor C1 (VP16-accessory protein) (HCFC1), aka HFC1, MGC70925, VCAF, HCF-1, CFF, HCF1, ACCESSION NUMBER NM_005334.2; hematopoietic cell-specific Lyn substrate 1 (HCLS1), aka HS1, CTTNL, ACCESSION NUMBER NM_005335.3; histone deacetylase 1 (HDAC1), aka GON-10, DKFZp686H12203, HD1, RPD3, RPD3L1, ACCESSION NUMBER NM_004964.2; histone deacetylase 2 (HDAC2), aka YAF1, RPD3, ACCESSION NUMBER NM_001527.2; highly divergent homeobox (HDX), aka D030011N01Rik, FLJ30678, MGC126771, CXorf43, MGC126769, ACCESSION NUMBER NM_144657.3; HES/HEY-like transcription factor (HELT), aka HCM1228, Mgn, HESL, ACCESSION NUMBER NM_001029887.1; hairy and enhancer of split 6 (Drosophila) (HES6), ACCESSION NUMBER NM_018645.3; HESX homeobox 1 (HESX1), aka RPX, ANF, MGC138294, ACCESSION NUMBER NM_003865.1; hairy/enhancer-of-split related with YRPW motif 1 (HEY1), transcript variant 2, aka MGC1274, CHF2, HERP2, HRT-1, HESR1, OAF1, ACCESSION NUMBER NM_001040708.1; hairy/enhancer-of-split related with YRPW motif 1 (HEY1), transcript variant 2, aka MGC1274, CHF2, HERP2, HRT-1, HESR1, OAF1, ACCESSION NUMBER NM_001040708.1; hairy/enhancer-of-split related with YRPW motif 2 (HEY2), aka GRL, HERP1, ACCESSION NUMBER NM_012259.1; hairy/enhancer-of-split related with YRPW motif-like (HEYL), aka MGC12623, HRT3, ACCESSION NUMBER NM_014571.3; hematopoietically expressed homeobox (HHEX), aka HEX, PRH, PRHX, HOX11L-PEN, HMPH, ACCESSION NUMBER NM_002729.4; hypermethylated in cancer 1 (HIC1), transcript variant 2, aka hic-1, ZBTB29, ACCESSION NUMBER NM_001098202.1; hypoxia-inducible factor 1, alpha subunit (basic helix-loop-helix transcription factor) (HIF1A), transcript variant 2, aka HIF-1alpha, MOP1, PASD8, HIF1-ALPHA, HIF1, ACCESSION NUMBER NM_181054.1; hypoxia-inducible factor 1, alpha subunit (basic helix-loop-helix transcription factor) (HIF1A), transcript variant 1, aka HIF-1alpha, MOP1, PASD8, HIF1-ALPHA, HIF1, ACCESSION NUMBER NM_001530.2; hypoxia inducible factor 3, alpha subunit (HIF3A), transcript variant 2, aka MOP7, HIF-3A2, HIF-3A4, PASD7, IPAS, HIF-3A, ACCESSION NUMBER NM_022462.3; hypoxia inducible factor 3, alpha subunit (HIF3A), transcript variant 2, aka MOP7, HIF-3A2, HIF-3A4, PASD7, IPAS, HIF-3A, ACCESSION NUMBER NM_022462.3; hypoxia inducible factor 3, alpha subunit (HIF3A), transcript variant 2, aka MOP7, HIF-3A2, HIF-3A4, PASD7, IPAS, HIF-3A, ACCESSION NUMBER NM_022462.3; hypoxia inducible factor 3, alpha subunit (HIF3A), transcript variant 1, aka IPAS, HIF-3A, MOP7, HIF-3A4, PASD7, ACCESSION NUMBER NM_152794.2; hypoxia inducible factor 3, alpha subunit (HIF3A), transcript variant 3, aka IPAS, HIF-3A, MOP7, HIF-3A2, HIF-3A4, PASD7, ACCESSION NUMBER NM_152795.2; huntingtin interacting protein 2 (HIP2), aka LIG, UBE2K, HYPG, ACCESSION NUMBER NM_005339.3; HIR histone cell cycle regulation defective homolog A (S. cerevisiae) (HIRA), aka TUP1, TUPLE1, DGCR1, ACCESSION NUMBER NM_003325.3; hepatic leukemia factor (HLF), aka MGC33822, ACCESSION NUMBER NM_002126.4; H2.0-like homeobox (HLX), aka HB24, HLX1, ACCESSION NUMBER NM_021958.2; homeobox HB9 (HLXB9), aka HB9, SCRA1, HOXHB9, ACCESSION NUMBER NM_005515.2; homeobox containing 1 (HMBOX1), aka FLJ21616, HNF1LA, PBHNF, ACCESSION NUMBER NM_024567.2; high-mobility group 20A (HMG20A), aka HMGX1, FLJ10739, ACCESSION NUMBER NM_018200.2; high-mobility group 20B (HMG20B), aka SMARCE1r, FLJ26127, HMGX2, pp8857, PP7706, BRAF35, SOXL, BRAF25, ACCESSION NUMBER NM_006339.1; high mobility group AT-hook 1 (HMGA1), transcript variant 1, aka MGC12816, MGC4854, HMG-R, MGC4242, HMGIY, ACCESSION NUMBER NM_145899.1; high mobility group AT-hook 1 (HMGA1), transcript variant 4, aka MGC12816, MGC4854, HMG-R, MGC4242, HMGIY, ACCESSION NUMBER NM_145902.1; high mobility group AT-hook 1 (HMGA1), transcript variant 6, aka MGC12816, MGC4854, HMG-R, MGC4242, HMGIY, ACCESSION NUMBER NM_145904.1; high mobility group AT-hook 1 (HMGA1), transcript variant 7, aka MGC12816, MGC4854, HMG-R, MGC4242, HMGIY, ACCESSION NUMBER NM_145905.1; high-mobility group box 2 (HMGB2), aka HMG2, ACCESSION NUMBER NM_002129.2; homeobox (H6 family) 1 (HMX1), aka H6, ACCESSION NUMBER NM_018942.1; H6 family homeobox 2 (HMX2), aka Nkx5-2, H6L, ACCESSION NUMBER NM_005519.1; hepatocyte nuclear factor 4, alpha (HNF4A), transcript variant 3, aka TCF, NR2A21, HNF4, NR2A1, HNF4a9, HNF4a7, TCF14, FLJ39654, HNF4a8, MODY1, MODY, ACCESSION NUMBER NM_178850.1; hepatocyte nuclear factor 4, alpha (HNF4A), transcript variant 6, aka TCF, NR2A21, HNF4, NR2A1, HNF4a9, HNF4a7, TCF14, FLJ39654, HNF4a8, MODY1, MODY, ACCESSION NUMBER NM_001030004.1; hepatocyte nuclear factor 4, gamma (HNF4G), aka NR2A2, ACCESSION NUMBER NM_004133.3; homeobox and leucine zipper encoding (HOMEZ), aka HOMEZ, KIAA1443, ACCESSION NUMBER NM_020834.1; HOP homeobox (HOPX), transcript variant 1, aka HOP, MGC20820, LAGY, Cameo, SMAP31, OB1, Toto, NECC1, ACCESSION NUMBER NM_032495.4; HOP homeobox (HOPX), transcript variant 3, aka HOP, MGC20820, LAGY, Cameo, SMAP31, OB1, Toto, NECC1, ACCESSION NUMBER NM_139212.2; HOP homeobox (HOPX), transcript variant 2, aka HOP, MGC20820, LAGY, Cameo, SMAP31, OB1, Toto, NECC1, ACCESSION NUMBER NM_139211.2; homeobox A1 (HOXA1), transcript variant 2, aka BSAS, HOX1, HOX1F, MGC45232, ACCESSION NUMBER NM_153620.2; homeobox A1 (HOXA1), transcript variant 1, aka BSAS, HOX1, HOX1F, MGC45232, ACCESSION NUMBER NM_005522.4; homeobox A10 (HOXA10), transcript variant 2, aka MGC12859, PL, HOX1H, HOX1, HOX1.8, ACCESSION NUMBER NM_153715.2; homeobox A10 (HOXA10), transcript variant 1, aka MGC12859, PL, HOX1H, HOX1, HOX1.8, ACCESSION NUMBER NM_018951.3; homeobox A10 (HOXA10), transcript variant 1, aka MGC12859, PL, HOX1H, HOX1, HOX1.8, ACCESSION NUMBER NM_018951.3; homeobox A11 (HOXA11), aka HOX1I, HOX1, ACCESSION NUMBER NM_005523.5; homeobox A13 (HOXA13), aka HOX1, HOX1J, ACCESSION NUMBER NM_000522.3; homeobox A2 (HOXA2), aka HOX1K, ACCESSION NUMBER NM_006735.3; homeobox A3 (HOXA3), transcript variant 1, aka MGC10155, HOX1E, HOX1, ACCESSION NUMBER NM_030661.4; homeobox A3 (HOXA3), transcript variant 2, aka MGC10155, HOX1E, HOX1, ACCESSION NUMBER NM_153631.2; homeobox A3 (HOXA3), transcript variant 3, aka MGC10155, HOX1E, HOX1, ACCESSION NUMBER NM_153632.2; homeobox A3 (HOXA3), transcript variant 3, aka MGC10155, HOX1E, HOX1, ACCESSION NUMBER NM_153632.2; homeobox A4 (HOXA4), aka HOX1D, HOX1, ACCESSION NUMBER NM_002141.4; homeobox A5 (HOXA5), aka MGC9376, HOX1C, HOX1.3, HOX1, ACCESSION NUMBER NM_019102.2; homeobox A6 (HOXA6), aka HOX1B, HOX1.2, HOX1, ACCESSION NUMBER NM_024014.2; homeobox A7 (HOXA7), aka ANTP, HOX1.1, HOX1A, HOX1, ACCESSION NUMBER NM_006896.3; homeobox A9 (HOXA9), aka MGC1934, HOX1.7, HOX1G, HOX1, ABD-B, ACCESSION NUMBER NM_152739.3; homeobox A9 (HOXA9), aka MGC1934, HOX1.7, HOX1G, HOX1, ABD-B, ACCESSION NUMBER NM_152739.3; homeobox B1 (HOXB1), aka HOX2, HOX2I, MGC116843, Hox-2.9, MGC116844, MGC116845, ACCESSION NUMBER NM_002144.3; homeobox B13 (HOXB13), aka PSGD, ACCESSION NUMBER NM_006361.5; homeobox B2 (HOXB2), aka HOX2H, K8, Hox-2.8, HOX2, ACCESSION NUMBER NM_002145.3; homeobox B3 (HOXB3), aka HOX2, HOX2G, Hox-2.7, ACCESSION NUMBER NM_002146.4; homeo box B4 (HOXB4), aka HOX2, HOX-2.6, HOX2F, ACCESSION NUMBER NM_024015.3; homeobox B5 (HOXB5), aka HU-1, HOX2, HHO.C10, HOX2A, Hox2.1, ACCESSION NUMBER NM_002147.3; homeobox B6 (HOXB6), aka Hox-2.2, HOX2B, HOX2, HU-2, ACCESSION NUMBER NM_018952.4; homeobox B6 (HOXB6), aka Hox-2.2, HOX2B, HOX2, HU-2, ACCESSION NUMBER NM_018952.4; homeobox B7 (HOXB7), aka HOX2C, HOX2, HHO.C1, Hox-2.3, ACCESSION NUMBER NM_004502.3; homeobox B8 (HOXB8), aka Hox-2.4, HOX2, HOX2D, ACCESSION NUMBER NM_024016.3; homeo box B9 (HOXB9), aka HOX2, HOX-2.5, HOX2E, ACCESSION NUMBER NM_024017.3; homeobox C10 (HOXC10), aka MGC5259, HOX3I, ACCESSION NUMBER NM_017409.3; homeobox C11 (HOXC11), aka MGC4906, HOX3H, ACCESSION NUMBER NM_014212.3; homeobox C12 (HOXC12), aka HOC3F, HOX3F, HOX3, ACCESSION NUMBER NM_173860.1; homeobox C13 (HOXC13), aka HOX3, HOX3G, ACCESSION NUMBER NM_017410.2; homeobox C4 (HOXC4), transcript variant 1, aka cp19, HOX3E, HOX3, ACCESSION NUMBER NM_014620.4; homeobox C4 (HOXC4), transcript variant 1, aka cp19, HOX3E, HOX3, ACCESSION NUMBER NM_014620.4; homeobox C5 (HOXC5), transcript variant 1, aka HOX3D, CP11, HOX3, ACCESSION NUMBER NM_018953.2; homeobox C6 (HOXC6), transcript variant 1, aka HOX3C, HOX3, CP25, HHO.C8, ACCESSION NUMBER NM_004503.3; homeobox C6 (HOXC6), transcript variant 1, aka HOX3C, HOX3, CP25, HHO.C8, ACCESSION NUMBER NM_004503.3; homeobox C6 (HOXC6), transcript variant 2, aka HOX3C, HOX3, CP25, HHO.C8, ACCESSION NUMBER NM_153693.3; homeobox C8 (HOXC8), aka HOX3, HOX3A, ACCESSION NUMBER NM_022658.3; homeobox C9 (HOXC9), aka HOX3, HOX3B, ACCESSION NUMBER NM_006897.1; homeobox D1 (HOXD1), aka HOX4G, HOX4, Hox-4.7, ACCESSION NUMBER NM_024501.1; homeobox D10 (HOXD10), aka Hox-4.4, HOX4, HOX4E, HOX4D, ACCESSION NUMBER NM_002148.3; homeobox D11 (HOXD11), aka HOX4F, HOX4, ACCESSION NUMBER NM_021192.2; homeobox D12 (HOXD12), aka HOX4H, ACCESSION NUMBER NM_021193.2; homeobox D13 (HOXD13), aka SPD, BDE, HOX4I, BDSD, ACCESSION NUMBER NM_000523.3; homeobox D3 (HOXD3), aka HOX4, MGC10470, Hox-4.1, HOX1D, HOX4A, ACCESSION NUMBER NM_006898.4; homeobox D4 (HOXD4), aka HOX4B, HHO.C13, HOX4, HOX-5.1, Hox-4.2, ACCESSION NUMBER NM_014621.2; homeobox D8 (HOXD8), aka HOX4, HOX4E, HOX5.4, ACCESSION NUMBER NM_019558.2; homeobox D9 (HOXD9), aka Hox-5.2, HOX4C, HOX4, Hox-4.3, ACCESSION NUMBER NM_014213.2; hairless homolog (mouse) (HR), transcript variant 1, aka AU, HSA277165, ALUNC, ACCESSION NUMBER NM_005144.3; hairless homolog (mouse) (HR), transcript variant 2, aka AU, HSA277165, ALUNC, ACCESSION NUMBER NM_018411.3; heat shock transcription factor 1 (HSF1), aka HSTF1, ACCESSION NUMBER NM_005526.2; heat shock transcription factor 2 (HSF2), aka MGC117376, MGC75048, MGC156196 ACCESSION NUMBER NM_004506.2; heat shock transcription factor 4 (HSF4), transcript variant 1, aka CTM, ACCESSION NUMBER NM_001538.2; heat shock transcription factor 4 (HSF4), transcript variant 2, aka CTM, ACCESSION NUMBER NM_001040667.1; heat shock transcription factor family member 5 (HSF5), aka FLJ40311, MGC134827, ACCESSION NUMBER NM_001080439.1; heat shock transcription factor family, X linked 1 (HSFX1), aka LW-1, ACCESSION NUMBER NM_016153.1; heat shock transcription factor, Y-linked 1 (HSFY1), transcript variant 3, aka HSF2L, HSFY, accession number NR_003510.1; heat shock transcription factor, Y-linked 1 (HSFY1), transcript variant 2, aka HSF2L, HSFY, ACCESSION NUMBER NM_152584.1; heat shock transcription factor, Y linked 2 (HSFY2), transcript variant 1, aka HSF2L, HSFY, FLJ25453, ACCESSION NUMBER NM_153716.1; heat shock transcription factor, Y linked 2 (HSFY2), transcript variant 1, aka HSF2L, HSFY, FLJ25453, ACCESSION NUMBER NM_153716.1; IKAROS family zinc finger 1 (Ikaros) (IKZF1), aka Hs.54452, IK1, PRO0758, hIk-1, IKAROS, LYF1, ZNFN1A1, ACCESSION NUMBER NM_006060.3; IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 2, aka AIOLOS, ZNFN1A3, ACCESSION NUMBER NM_183228.1; IKAROS family zinc finger 3 (Aiolos) (IKZF3), transcript variant 1, aka AIOLOS, ZNFN1A3, ACCESSION NUMBER NM_012481.3; IKAROS family zinc finger 4 (Eos) (IKZF4), aka ZNFN1A4, KIAA1782, EOS, ACCESSION NUMBER NM_022465.3; insulin promoter factor 1, homeodomain transcription factor (IPF1), aka IDX-1, IUF1, STF-1, MODY4, PDX-1, PDX1, ACCESSION NUMBER NM_000209.1; interferon regulatory factor 1 (IRF1), aka IRF-1, MAR, ACCESSION NUMBER NM_002198.1; interferon regulatory factor 2 (IRF2), aka IRF-2, DKFZp686F0244, ACCESSION NUMBER NM_002199.2; interferon regulatory factor 3 (IRF3), ACCESSION NUMBER NM_001571.2; interferon regulatory factor 4 (IRF4), aka MUM1, LSIRF, ACCESSION NUMBER NM_002460.1; interferon regulatory factor 5 (IRF5), transcript variant 1, ACCESSION NUMBER NM_002200.3; interferon regulatory factor 6 (IRF6), aka VWS, LPS, PIT, OFC6, PPS, ACCESSION NUMBER NM_006147.2; interferon regulatory factor 7 (IRF7), transcript variant b, aka IRF7A, IRF-7H, ACCESSION NUMBER NM_004029.2; interferon regulatory factor 7 (IRF7), transcript variant b, aka IRF7A, IRF-7H, ACCESSION NUMBER NM_004029.2; interferon regulatory factor 7 (IRF7), transcript variant d, aka IRF7A, IRF-7H, ACCESSION NUMBER NM_004031.2; interferon regulatory factor 8 (IRF8), aka H-ICSBP, ICSBP, IRF-8, ICSBP1, ACCESSION NUMBER NM_002163.2; interferon regulatory factor 9 (IRF9), aka IRF9, p48, ISGF3, IRF-9, ACCESSION NUMBER NM_006084.4; iroquois homeobox 1 (IRX1), aka IRX-5, ACCESSION NUMBER NM_024337.3; iroquois homeobox 2 (IRX2), ACCESSION NUMBER NM_033267.3; iroquois homeobox 3 (IRX3), aka IRX-1, ACCESSION NUMBER NM_024336.1; iroquois homeobox 4 (IRX4), aka MGC131996, ACCESSION NUMBER NM_016358.1; iroquois homeobox protein 5 (IRX5), aka IRX-2a, ACCESSION NUMBER NM_005853.4; iroquois homeobox 6 (IRX6), aka IRX-3, IRX7, ACCESSION NUMBER NM_024335.2; ISL LIM homeobox 2 (ISL2), aka FLJ10160, ACCESSION NUMBER NM_145805.1; intestine-specific homeobox (ISX), aka MGC138417, DKFZp781N2395, Pix-1, RAXLX, ACCESSION NUMBER NM_001008494.1; jumonji, AT rich interactive domain 1A (JARID1A), transcript variant 2, aka KDM5A, RBP2, RBBP2, ACCESSION NUMBER NM_005056.2; Jun dimerization protein 2 (JDP2), aka JUNDM2, ACCESSION NUMBER NM_130469.2; jun oncogene (JUN), aka AP1, c-Jun, ACCESSION NUMBER NM_002228.3; jun B proto-oncogene (JUNB), ACCESSION NUMBER NM_002229.2; jun D proto-oncogene (JUND), ACCESSION NUMBER NM_005354.3; potassium voltage-gated channel, subfamily H (eag-related), member 8 (KCNH8), aka elk3, ELK1, Kv12.1, ELK, ACCESSION NUMBER NM_144633.2; Kruppel-like factor 1 (erythroid) (KLF1), aka EKLF, ACCESSION NUMBER NM_006563.2; Kruppel-like factor 10 (KLF10), transcript variant 1, aka TIEG, EGRA, TIEG1, ACCESSION NUMBER NM_005655.1; Kruppel-like factor 10 (KLF10), transcript variant 1, aka TIEG, EGRA, TIEG1, ACCESSION NUMBER NM_005655.1; Kruppel-like factor 10 (KLF10), transcript variant 2, aka TIEG, EGRA, TIEG1, ACCESSION NUMBER NM_001032282.1; Kruppel-like factor 11 (KLF11), accession number XM_001129527.1; Kruppel-like factor 11 (KLF11), accession number XM_001129527.1; Kruppel-like factor 12 (KLF12), aka AP-2rep, AP2REP, HSPC122, ACCESSION NUMBER NM_007249.4; Kruppel-like factor 12 (KLF12), aka AP-2rep, AP2REP, HSPC122, ACCESSION NUMBER NM_007249.4; Kruppel-like factor 15 (KLF15), aka KKLF, ACCESSION NUMBER NM_014079.2; Kruppel-like factor 16 (KLF16), aka BTEB4, DRRF, NSLP2, ACCESSION NUMBER NM_031918.1; Kruppel-like factor 17 (KLF17), aka ZNF393, Zfp393, RP4-675G8.1, F1140160, ACCESSION NUMBER NM_173484.3; Kruppel-like factor 2 (lung) (KLF2), aka LKLF, ACCESSION NUMBER NM_016270.2; Kruppel-like factor 3 (basic) (KLF3), aka BKLF, MGC48279, ACCESSION NUMBER NM_016531.3; Kruppel-like factor 4 (gut) (KLF4), aka GKLF, EZF, ACCESSION NUMBER NM_004235.3; Kruppel-like factor 5 (intestinal) (KLF5), aka BTEB2, CKLF, IKLF, ACCESSION NUMBER NM_001730.3; Kruppel-like factor 6 (KLF6), transcript variant 2, aka GBF, ZF9, ST12, CPBP, BCD1, PAC1, DKFZp686N0199, COPEB, ACCESSION NUMBER NM_001300.4; Kruppel-like factor 6 (KLF6), transcript variant 1, aka GBF, ST12, ZF9, CPBP, BCD1, DKFZp686N0199, PAC1, COPEB, ACCESSION NUMBER NM_001008490.1; Kruppel-like factor 7 (ubiquitous) (KLF7), aka UKLF, ACCESSION NUMBER NM_003709.2; Kruppel-like factor 9 (KLF9), aka BTEB, BTEB1, ACCESSION NUMBER NM_001206.2; kinetochore associated 1 (KNTC1), aka F1136151, KIAA0166, ROD, ACCESSION NUMBER NM_014708.3; keratin associated protein 5-1 (KRTAP5-1), aka KRN1L, KRTAP5.1, ACCESSION NUMBER NM_001005922.1; 1 (3)mbt-like (Drosophila) (L3MBTL), transcript variant I, aka L3MBTL1, dJ138B7.3, F1141181, DKFZp586P1522, KIAA0681, H-L(3)MBT, ACCESSION NUMBER NM_015478.5; 1 (3)mbt-like (Drosophila) (L3MBTL), transcript variant II, aka L3MBTL1, dJ138B7.3, DKFZp586P1522, KIAA0681, H-L(3)MBT, ACCESSION NUMBER NM_032107.2; 1 (3)mbt-like (Drosophila) (L3MBTL), transcript variant II, aka L3MBTL1, dJ138B7.3, F1141181, DKFZp586P1522, KIAA0681, H-L(3)MBT, ACCESSION NUMBER NM_032107.3; 1 (3)mbt-like (Drosophila) (L3MBTL), transcript variant II, aka L3MBTL1, dJ138B7.3, F1141181, DKFZp586P1522, KIAA0681, H-L(3)MBT, ACCESSION NUMBER NM_032107.3; 1 (3)mbt-like 4 (Drosophila) (L3MBTL4), aka HsT1031, ACCESSION NUMBER NM_173464.2; LAG1 homolog, ceramide synthase 2 (LASS2), transcript variant 1, aka SP260, CerS2, MGC987, TMSG1, L3, F1110243, ACCESSION NUMBER NM_181746.2; LAG1 homolog, ceramide synthase 2 (LASS2), transcript variant 2, aka SP260, CerS2, MGC987, TMSG1, L3, F1110243, ACCESSION NUMBER NM_022075.3; LAG1 homolog, ceramide synthase 3 (LASS3), aka MGC27091, CerS3, ACCESSION NUMBER NM_178842.3; LAG1 homolog, ceramide synthase 4 (LASS4), aka FLJ12089, Trh1, CerS4, ACCESSION NUMBER NM_024552.1; LAG1 homolog, ceramide synthase 5 (S. cerevisiae) (LASS5), aka Trh4, MGC45411, FLJ25304, ACCESSION NUMBER NM_147190.1; LAG1 homolog, ceramide synthase 6 (LASS6), aka CerS6, MGC129950, MGC129949, ACCESSION NUMBER NM_203463.1; ladybird homeobox 1 (LBX1), aka LBX1H, HPX6, HPX-6, ACCESSION NUMBER NM_006562.4; ladybird homeobox 2 (LBX2), aka LP3727, ACCESSION NUMBER NM_001009812.1; ligand dependent nuclear receptor corepressor (LCOR), aka FLJ38026, MLR2, KIAA1795, RP11-175019.1, ACCESSION NUMBER NM_032440.1; lymphoid enhancer-binding factor 1 (LEF1), aka TCF1ALPHA, DKFZp586H0919, ACCESSION NUMBER NM_016269.2; LIM homeobox 1 (LHX1), aka LIM-1, LIM1, MGC138141, MGC126723, ACCESSION NUMBER NM_005568.2; LIM homeobox 2 (LHX2), aka LH2, hLhx2, MGC138390, ACCESSION NUMBER NM_004789.3; LIM homeobox 3 (LHX3), transcript variant 1, aka M2-LHX3, DKFZp762A2013, ACCESSION NUMBER NM_178138.2; LIM homeobox 3 (LHX3), transcript variant 2, aka M2-LHX3, DKFZp762A2013, ACCESSION NUMBER NM_014564.2; LIM homeobox 3 (LHX3), transcript variant 2, aka M2-LHX3, DKFZp762A2013, ACCESSION NUMBER NM_014564.2; LIM homeobox 3 (LHX3), transcript variant 2, aka M2-LHX3, DKFZp762A2013, ACCESSION NUMBER NM_014564.2; LIM homeobox 3 (LHX3), transcript variant 1, aka M2-LHX3, DKFZp762A2013, ACCESSION NUMBER NM_178138.3; LIM homeobox 4 (LHX4), aka Gsh4, Gsh-4, ACCESSION NUMBER NM_033343.2; LIM homeobox 5 (LHX5), aka MGC129689, ACCESSION NUMBER NM_022363.2; LIM homeobox 6 (LHX6), transcript variant 1, aka MGC119545, MGC119542, MGC119544, LHX6.1, ACCESSION NUMBER NM_014368.3; LIM homeobox 6 (LHX6), transcript variant 2, aka MGC119545, MGC119542, MGC119544, LHX6.1, ACCESSION NUMBER NM_199160.2; LIM homeobox 8 (LHX8), aka Lhx7, ACCESSION NUMBER NM_001001933.1; LIM homeobox 9 (LHX9), transcript variant 1, ACCESSION NUMBER NM_020204.2; LIM homeobox 9 (LHX9), transcript variant 2, ACCESSION NUMBER NM_001014434.1; LIM domain only 1 (rhombotin 1) (LMO1), aka RBTN1, MGC116692, TTG1, RHOM1, ACCESSION NUMBER NM_002315.1; LIM domain only 4 (LMO4), ACCESSION NUMBER NM_006769.2; LIM homeobox transcription factor 1, alpha (LMX1A), transcript variant 2, aka MGC87616, LMX-1, LMX1.1, LMX1, ACCESSION NUMBER NM_177399.2; LIM homeobox transcription factor 1, alpha (LMX1A), transcript variant 3, aka MGC87616, LMX-1, LMX1.1, LMX1, ACCESSION NUMBER NM_001033507.1; LIM homeobox transcription factor 1, alpha (LMX1A), transcript variant 1, aka MGC87616, LMX-1, LMX1.1, LMX1, ACCESSION NUMBER NM_177398.2; LIM homeobox transcription factor 1, alpha (LMX1A), transcript variant 1, aka MGC87616, LMX-1, LMX1.1, LMX1, ACCESSION NUMBER NM_177398.2; LIM homeobox transcription factor 1, beta (LMX1B), aka LMX1.2, MGC142051, NPS1, MGC138325, ACCESSION NUMBER NM_002316.1; leucine-zipper-like transcription regulator 1 (LZTR1), aka MGC21205, TCFL2, LZTR-1, ACCESSION NUMBER NM_006767.3; leucine zipper, putative tumor suppressor 1 (LZTS1), aka FEZ1, F37, ACCESSION NUMBER NM_021020.1; v-maf musculoaponeurotic fibrosarcoma oncogene homolog (avian) (MAF), transcript variant 2, aka MGC71685, ACCESSION NUMBER NM_001031804.1; v-maf musculoaponeurotic fibrosarcoma oncogene homolog (avian) (MAF), transcript variant 1, aka MGC71685, ACCESSION NUMBER NM_005360.3; v-maf musculoaponeurotic fibrosarcoma oncogene homolog A (avian) (MAFA), aka RIPE3b1, hMafA, ACCESSION NUMBER NM_201589.2; v-maf musculoaponeurotic fibrosarcoma oncogene homolog B (avian) (MAFB), aka KRML, MGC43127, ACCESSION NUMBER NM_005461.3; v-maf musculoaponeurotic fibrosarcoma oncogene homolog F (avian) (MAFF), transcript variant 1, aka U-MAF, ACCESSION NUMBER NM_012323.2; v-maf musculoaponeurotic fibrosarcoma oncogene homolog F (avian) (MAFF), transcript variant 1, aka U-MAF, ACCESSION NUMBER NM_012323.2; v-maf musculoaponeurotic fibrosarcoma oncogene homolog F (avian) (MAFF), transcript variant 2, aka U-MAF, ACCESSION NUMBER NM_152878.1; v-maf musculoaponeurotic fibrosarcoma oncogene homolog G (avian) (MAFG), transcript variant 1, aka MGC20149, MGC13090, ACCESSION NUMBER NM_002359.2; v-maf musculoaponeurotic fibrosarcoma oncogene homolog G (avian) (MAFG), transcript variant 2, aka MGC20149, MGC13090, ACCESSION NUMBER NM_032711.2; v-maf musculoaponeurotic fibrosarcoma oncogene homolog K (avian) (MAFK), aka FLJ32205, MGC71717, NFE2U, P18, ACCESSION NUMBER NM_002360.3; mastermind-like 3 (Drosophila) (MAML3), aka GDN, MAM-2, MAM2, TNRC3, ERDA3, CAGH3, ACCESSION NUMBER NM_018717.3; MYC associated factor X (MAX), transcript variant 2, aka MGC34679, MGC36767, MGC11225, MGC10775, orf1, MGC18164, ACCESSION NUMBER NM_145112.1; MYC associated factor X (MAX), transcript variant 3, aka MGC34679, MGC36767, MGC11225, MGC10775, orf1, MGC18164, ACCESSION NUMBER NM_145113.1; MYC associated factor X (MAX), transcript variant 4, aka MGC34679, MGC36767, MGC11225, MGC10775, orf1, MGC18164, ACCESSION NUMBER NM_145114.1; MYC associated factor X (MAX), transcript variant 5, aka MGC34679, MGC36767, MGC11225, MGC10775, orf1, MGC18164, ACCESSION NUMBER NM_145116.1; MYC associated factor X (MAX), transcript variant 1, aka MGC34679, MGC36767, MGC11225, MGC10775, orf1, MGC18164, ACCESSION NUMBER NM_002382.3; methyl-CpG binding domain protein 1 (MBD1), transcript variant 3, aka PCM1, RFT, CXXC3, ACCESSION NUMBER NM_015844.1; methyl-CpG binding domain protein 1 (MBD1), transcript variant 2, aka PCM1, RFL CXXC3, ACCESSION NUMBER NM_015845.2; myelodysplasia syndrome 1 (MDS1), aka PRDM3, MDS1-EVI1, ACCESSION NUMBER NM_004991.1; myocyte enhancer factor 2A (MEF2A), aka ADCAD1, RSRFC9, RSRFC4, ACCESSION NUMBER NM_005587.1; myocyte enhancer factor 2B (MEF2B), aka FLJ46391, RSRFR2, FLJ32599, ACCESSION NUMBER NM_005919.1; myocyte enhancer factor 2C (MEF2C), ACCESSION NUMBER NM_002397.2; myocyte enhancer factor 2D (MEF2D), aka DKFZp686I1536, ACCESSION NUMBER NM_005920.2; Meis homeobox 2 (MEIS2), transcript variant a, aka MGC2820, MRG1, HsT18361, ACCESSION NUMBER NM_170677.2; Meis homeobox 2 (MEIS2), transcript variant h, aka MGC2820, MRG1, HsT18361, ACCESSION NUMBER NM_172316.1; Meis homeobox 2 (MEIS2), transcript variant g, aka MGC2820, MRG1, HsT18361, ACCESSION NUMBER NM_172315.1; Meis homeobox 2 (MEIS2), transcript variant f, aka MGC2820, MRG1, HsT18361, ACCESSION NUMBER NM_002399.2; Meis homeobox 3 (MEIS3), transcript variant 2, aka DKFZp547H236, MRG2, ACCESSION NUMBER NM_001009813.1; Meis homeobox 3 pseudogene 1 (MEIS3P1), MEIS3, MRG2, MEIS4, accession number NR_002211.1; mesenchyme homeobox 1 (MEOX1), transcript variant 3, aka MOX1, ACCESSION NUMBER NM_001040002.1; mesenchyme homeobox 1 (MEOX1), transcript variant 3, aka MOX1, ACCESSION NUMBER NM_001040002.1; mesenchyme homeobox 1 (MEOX1), transcript variant 3, aka MOX1, ACCESSION NUMBER NM_001040002.1; mesenchyme homeobox 2 (MEOX2), aka MOX2, GAX, ACCESSION NUMBER NM_005924.4; mesoderm posterior 1 homolog (mouse) (MESP1), aka MGC10676, ACCESSION NUMBER NM_018670.2; MAX gene associated (MGA), aka MAD5, MXD5, FLJ12634, KIAA0518, ACCESSION NUMBER NM_001080541.1; microphthalmia-associated transcription factor (MITF), transcript variant 3, aka WS2A, ACCESSION NUMBER NM_006722.1; microphthalmia-associated transcription factor (MITF), transcript variant 1, aka WS2A, ACCESSION NUMBER NM_198159.1; microphthalmia-associated transcription factor (MITF), transcript variant 5, aka WS2A, ACCESSION NUMBER NM_198158.1; Mix1 homeobox-like 1 (Xenopus laevis) (MIXL1), aka MIXL, MIX, MGC138179, MILD1, ACCESSION NUMBER NM_031944.1; mohawk homeobox (MKX), aka MGC39616, IFRX, IRXL1, C10orf48, ACCESSION NUMBER NM_173576.1; myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila) (MLL), aka TRX1, HRX, KMT2A, MLL/GAS7, ALL-1, CXXC7, MLL1A, HTRX1, FLJ11783, ACCESSION NUMBER NM_005933.2; myeloid/lymphoid or mixed-lineage leukemia 4 (MLL4), aka MLL2, HRX2, KIAA0304, WBP7, TRX2, ACCESSION NUMBER NM_014727.1; myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila), translocated to, 10 (MLLT10), transcript variant 1, aka AF10, DKFZp686E10210, MGC75086, ACCESSION NUMBER NM_004641.2; myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila), translocated to, 10 (MLLT10), transcript variant 1, aka AF10, DKFZp686E10210, MGC75086, ACCESSION NUMBER NM_004641.2; MAX-like protein X (MLX), transcript variant 1, aka MXD7, MAD7, TCFL4, ACCESSION NUMBER NM_198205.1; MAX-like protein X (MLX), transcript variant 2, aka TCFL4, MXD7, MAD7, ACCESSION NUMBER NM_198204.1; MAX binding protein (MNT), aka MXD6, ROX, MAD6, ACCESSION NUMBER NM_020310.2; mortality factor 4 (MORF4), aka CSR, SEN1, SEN, CSRB, ACCESSION NUMBER NM_006792.2; musculin (activated B-cell factor-1) (MSC), aka ABF-1, ABF1, MYOR, ACCESSION NUMBER NM_005098.3; male-specific lethal 3-like 1 (Drosophila) (MSL3L1), transcript variant 4, aka DKFZP586J1822, ACCESSION NUMBER NM_078628.1; male-specific lethal 3-like 1 (Drosophila) (MSL3L1), transcript variant 3, aka DKFZP586J1822, ACCESSION NUMBER NM_006800.2; male-specific lethal 3-like 1 (Drosophila) (MSL3L1), transcript variant 1, aka DKFZP586J1822, ACCESSION NUMBER NM_078629.1; male-specific lethal 3-like 1 (Drosophila) (MSL3L1), transcript variant 2, aka DKFZP586J1822, ACCESSION NUMBER NM_078630.1; methionine sulfoxide reductase B2 (MSRB2), aka PILB, CBS-1, MSRB, CGI-131, CBS1, MGC26104, ACCESSION NUMBER NM_012228.2; msh homeobox 1 (MSX1), aka HOX7, HYD1, ACCESSION NUMBER NM_002448.3; msh homeobox 2 (MSX2), aka FPP, PFM1, CRS2, MSH, PFM, HOX8, ACCESSION NUMBER NM_002449.4; metastasis associated 1 (MTA1), ACCESSION NUMBER NM_004689.3; metastasis associated 1 family, member 2 (MTA2), aka MTA1L1, PID, DKFZp686F2281, ACCESSION NUMBER NM_004739.2; metastasis associated 1 family, member 3 (MTA3), aka KIAA1266, ACCESSION NUMBER NM_020744.2; metal-regulatory transcription factor 1 (MTF1), aka MTF-1, MGC23036, ZRF, ACCESSION NUMBER NM_005955.2; MAX dimerization protein 1 (MXD1), aka MGC104659, MAD, MAD1, ACCESSION NUMBER NM_002357.2; v-myb myeloblastosis viral oncogene homolog (avian)-like 2 (MYBL2), aka B-MYB, MGC15600, BMYB, ACCESSION NUMBER NM_002466.2; v-myc myelocytomatosis viral oncogene homolog (avian) (MYC), aka c-Myc, ACCESSION NUMBER NM_002467.3; v-myc myelocytomatosis viral oncogene homolog 1, lung carcinoma derived (avian) (MYCL1), transcript variant 3, aka MYCL, LMYC, ACCESSION NUMBER NM_005376.3; v-myc myelocytomatosis viral oncogene homolog 1, lung carcinoma derived (avian) (MYCL1), transcript variant 1, aka MYCL, LMYC, ACCESSION NUMBER NM_001033081.1; v-myc myelocytomatosis viral oncogene homolog 1, lung carcinoma derived (avian) (MYCL1), transcript variant 2, aka MYCL, LMYC, ACCESSION NUMBER NM_001033082.1; v-myc myelocytomatosis viral related oncogene, neuroblastoma derived (avian) (MYCN), aka ODED, NMYC, MODED, N-myc, ACCESSION NUMBER NM_005378.4; myogenic factor 5 (MYF5), ACCESSION NUMBER NM_005593.1; myogenic factor 6 (herculin) (MYF6), aka HERCULIN, MRF4, ACCESSION NUMBER NM_002469.1; myoneurin (MYNN), aka ZBTB31, SBBIZ1, OSZF, ACCESSION NUMBER NM_018657.3; myogenic differentiation 1 (MYOD1), aka MYOD, PUM, MYF3, ACCESSION NUMBER NM_002478.4; myogenin (myogenic factor 4) (MYOG), aka MYF4, MYOGENIN, ACCESSION NUMBER NM_002479.4; MYST histone acetyltransferase 2 (MYST2), aka KAT7, HBOA, HBO1, ACCESSION NUMBER NM_007067.3; myelin transcription factor 1 (MYT1), aka MYTI, MTF1, C20orf36, PLPB1, ACCESSION NUMBER NM_004535.2; myelin transcription factor 1-like (MYT1L), aka NZF1, ACCESSION NUMBER NM_015025.2; myeloid zinc finger 1 (MZF1), transcript variant 2, aka MZF1B, ZSCAN6, ZNF42, MZF-1, Zfp98, ACCESSION NUMBER NM_198055.1; myeloid zinc finger 1 (MZF1), transcript variant 2, aka MZF1B, ZSCAN6, ZNF42, MZF-1, Zfp98, ACCESSION NUMBER NM_198055.1; Nanog homeobox (NANOG), ACCESSION NUMBER NM_024865.1; neurogenic differentiation 2 (NEUROD2), aka NDRF, ACCESSION NUMBER NM_006160.2; neurogenin 1 (NEUROG1), aka Math4C, ngn1, NEUROD3, AKA, ACCESSION NUMBER NM_006161.2; nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), transcript variant 2, aka NFATL1, OREBP, TONEBP, NF-AT5, KIAA0827, NFATZ, ACCESSION NUMBER NM_138713.2; nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), transcript variant 5, aka NFATL1, OREBP, TONEBP, NF-AT5, KIAA0827, NFATZ, ACCESSION NUMBER NM_173215.1; nuclear factor of activated T-cells 5, tonicity-responsive (NFAT5), transcript variant 5, aka NFATL1, OREBP, TONEBP, NF-AT5, KIAA0827, NFATZ, ACCESSION NUMBER NM_173215.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 1 (NFATC1), transcript variant 3, aka NFATc, MGC138448, NFAT2, NF-ATC, ACCESSION NUMBER NM_172387.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 1 (NFATC1), transcript variant 1, aka NFATc, MGC138448, NFAT2, NF-ATC, ACCESSION NUMBER NM_172390.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 1 (NFATC1), transcript variant 2, aka NFATc, MGC138448, NFAT2, NF-ATC, ACCESSION NUMBER NM_006162.3; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 1 (NFATC1), transcript variant 4, aka NFATc, MGC138448, NFAT2, NF-ATC, ACCESSION NUMBER NM_172388.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 2 (NFATC2), transcript variant 1, aka KIAA0611, NFATP, NFAT1, ACCESSION NUMBER NM_012340.3; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 2 (NFATC2), transcript variant 1, aka KIAA0611, NFATP, NFAT1, ACCESSION NUMBER NM_012340.3; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 3 (NFATC3), transcript variant 1, aka NFAT4, NFATX, ACCESSION NUMBER NM_173165.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 3 (NFATC3), transcript variant 2, aka NFAT4, NFATX, ACCESSION NUMBER NM_004555.2; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 3 (NFATC3), transcript variant 2, aka NFAT4, NFATX, ACCESSION NUMBER NM_004555.2; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 3 (NFATC3), transcript variant 4, aka NFAT4, NFATX, ACCESSION NUMBER NM_173164.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 3 (NFATC3), transcript variant 3, aka NFAT4, NFATX, ACCESSION NUMBER NM_173163.1; nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 4 (NFATC4), aka NFAT3, NF-ATc4, ACCESSION NUMBER NM_004554.3; nuclear factor (erythroid-derived 2), 45 kDa (NFE2), aka p45, NF-E2, ACCESSION NUMBER NM_006163.1; nuclear factor (erythroid-derived 2)-like 1 (NFE2L1), aka FLJ00380, TCF11, NRF1, LCR-F1, ACCESSION NUMBER NM_003204.1; nuclear factor (erythroid-derived 2)-like 2 (NFE2L2), aka NRF2, ACCESSION NUMBER NM_006164.2; nuclear factor (erythroid-derived 2)-like 3 (NFE2L3), aka NRF3, ACCESSION NUMBER NM_004289.5; nuclear factor I/A (NFIA), aka KIAA1439, NFI-L, DKFZp434L0422, ACCESSION NUMBER NM_005595.1; nuclear factor I/B (NFIB), aka NFIB2, NFIB3, HMGIC/NFIB, NH-RED, ACCESSION NUMBER NM_005596.2; nuclear factor I/C (CCAAT-binding transcription factor) (NFIC), transcript variant 2, aka CTF5, CTF, NF-I, NFI, MGC20153, ACCESSION NUMBER NM_205843.1; nuclear factor I/C (CCAAT-binding transcription factor) (NFIC), transcript variant 1, aka CTF5, CTF, NF-I, NFI, MGC20153, ACCESSION NUMBER NM_005597.2; nuclear factor I/C (CCAAT-binding transcription factor) (NFIC), transcript variant 1, aka CTF5, CTF, NF-I, NFI, MGC20153, ACCESSION NUMBER NM_005597.2; nuclear factor, interleukin 3 regulated (NFIL3), aka IL3BP1, NF-IL3A, E4BP4, NFIL3A, ACCESSION NUMBER NM_005384.2; nuclear factor I/X (CCAAT-binding transcription factor) (NFIX), aka NF1A, ACCESSION NUMBER NM_002501.2; nuclear factor of kappa light polypeptide gene enhancer in B-cells 1 (p105) (NFKB1), aka NF-kappa-B, NFKB-p105, EBP-1, KBF1, DKFZp686C01211, MGC54151, NFKB-p50, ACCESSION NUMBER NM_003998.2; nuclear factor of kappa light polypeptide gene enhancer in B-cells 2 (p49/p100) (NFKB2), transcript variant 1, aka LYT10, LYT-10, ACCESSION NUMBER NM_001077494.1; nuclear factor of kappa light polypeptide gene enhancer in B-cells 2 (p49/p100) (NFKB2), transcript variant 3, aka LYT10, LYT-10, ACCESSION NUMBER NM_001077493.1; nuclear factor of kappa light polypeptide gene enhancer in B-cells 2 (p49/p100) (NFKB2), transcript variant 2, aka LYT10, LYT-10, ACCESSION NUMBER NM_002502.3; nuclear transcription factor, X-box binding 1 (NFX1), transcript variant 3, aka MGC20369, NFX2, DKFZp779G2416, ACCESSION NUMBER NM_147134.1; nuclear transcription factor, X-box binding 1 (NFX1), transcript variant 2, aka MGC20369, NFX2, DKFZp779G2416, ACCESSION NUMBER NM_147133.1; nuclear transcription factor, X-box binding 1 (NFX1), transcript variant 2, aka MGC20369, NFX2, DKFZp779G2416, ACCESSION NUMBER NM_147133.1; nuclear transcription factor, X-box binding 1 (NFX1), transcript variant 1, aka MGC20369, NFX2, DKFZp779G2416, ACCESSION NUMBER NM_002504.3; nuclear transcription factor, X-box binding-like 1 (NFXL1), aka HOZFP, FLJ16294, ACCESSION NUMBER NM_152995.4; nuclear transcription factor Y, alpha (NFYA), transcript variant 1, aka CBF-B, HAP2, NF-YA, CBF-A, ACCESSION NUMBER NM_002505.3; nuclear transcription factor Y, alpha (NFYA), transcript variant 1, aka CBF-B, HAP2, NF-YA, CBF-A, ACCESSION NUMBER NM_002505.3; nuclear transcription factor Y, beta (NFYB), aka HAP3, NF-YB, CBF-B, CBF-A, ACCESSION NUMBER NM_006166.3; nuclear transcription factor Y, gamma (NFYC), aka HAP5, NF-YC, hCBF-C, DKFZp667G242, H1TF2A, CBFC, CBF-C, HSM, FLJ45775, ACCESSION NUMBER NM_014223.2; NK2 homeobox 1 (N10(2-1), transcript variant 2, aka BCH, TEBP, TITF1, TTF1, NKX2.1, NK-2, TTF-1, BHC, NKX2A, ACCESSION NUMBER NM_003317.3; NK2 homeobox 1 (N10(2-1), transcript variant 2, aka BCH, TEBP, TITF1, TTF1, NKX2.1, NK-2, TTF-1, BHC, NKX2A, ACCESSION NUMBER NM_003317.3; NK2 homeobox 2 (N10(2-2), aka NKX2B, N10(2.2, ACCESSION NUMBER NM_002509.2; NK2 transcription factor related, locus 3 (Drosophila) (N10(2-3), aka CSX3, N10(2.3, NKX2C, N10(4-3, ACCESSION NUMBER NM_145285.2; NK2 transcription factor related, locus 5 (Drosophila) (N10(2-5), aka NKX2E, N10(2.5, N10(4-1, CSX, CSX1, ACCESSION NUMBER NM_004387.2; NK2 homeobox 8 (N10(2-8), aka NKX2H, N10(2.8, Nkx2-9, ACCESSION NUMBER NM_014360.2; NK3 homeobox 1 (N10(3-1), aka NKX3A, BAPX2, N10(3, N10(3.1, ACCESSION NUMBER NM_006167.2; NK6 transcription factor related, locus 1 (Drosophila) (N10(6-1), aka NKX6A, NKX6.1, ACCESSION NUMBER NM_006168.1; NK6 homeobox 2 (NKX6-2), aka MGC126684, GTX, N10(6.2, NKX6B, ACCESSION NUMBER NM_177400.2; non-metastatic cells 2, protein (NM23B) expressed in (NME2), transcript variant 1, aka MGC111212, NM23-H2, NM23B, puf, NDPKB, NDPK-B, ACCESSION NUMBER NM_002512.2, non-metastatic cells 2, protein (NM23B) expressed in (NME2), transcript variant 3, aka MGC111212, NM23-H2, NM23B, puf, NDPKB, NDPK-B, ACCESSION NUMBER NM_001018138.1; non-metastatic cells 2, protein (NM23B) expressed in (NME2), transcript variant 4, aka MGC111212, NM23-H2, NM23B, puf, NDPKB, NDPK-B, ACCESSION NUMBER NM_001018139.1; non-metastatic cells 2, protein (NM23B) expressed in (NME2), transcript variant 2, aka MGC111212, NM23-H2, NM23B, puf, NDPKB, NDPK-B, ACCESSION NUMBER NM_001018137.1; NOBOX oogenesis homeobox (NOBOX), accession number XM_001134424.1; NOBOX oogenesis homeobox (NOBOX), aka OG2, OG-2, POF5, TCAG_12042, Og2x, ACCESSION NUMBER NM_001080413.1; neuronal PAS domain protein 1 (NPAS1), aka PASD5, MOP5, ACCESSION NUMBER NM_002517.2; neuronal PAS domain protein 2 (NPAS2), aka MGC71151, PASD4, MOP4, FLJ23138, ACCESSION NUMBER NM_002518.3; nuclear protein, ataxia-telangiectasia locus (NPAT), aka E14, ACCESSION NUMBER NM_002519.1; nuclear receptor subfamily 0, group B, member 1 (NROB1), aka AHC, NROB1, AHX, DSS, AHCH, GTD, DAX-1, DAX1, HHG, ACCESSION NUMBER NM_000475.3; nuclear receptor subfamily 0, group B, member 2 (NROB2), aka SHP, SHP1, ACCESSION NUMBER NM_021969.1; nuclear receptor subfamily 1, group D, member 1 (NR1D1), aka THRA1, hRev, ear-1, THRAL, EAR1, ACCESSION NUMBER NM_021724.2; nuclear receptor subfamily 1, group D, member 2 (NR1D2), accession number XM_001130839.1; nuclear receptor subfamily 1, group H, member 2 (NR1H2), aka NER, LXR-b, UNR, RIP15, NER-I, LXRB, ACCESSION NUMBER NM_007121.2; nuclear receptor subfamily 1, group H, member 3 (NR1H3), aka LXR-a, LXRA, RLD-1, ACCESSION NUMBER NM_005693.1; nuclear receptor subfamily 1, group H, member 4 (NR1H4), aka HRR1, MGC163445, FXR, HRR-1, RIP14, BAR, ACCESSION NUMBER NM_005123.1; nuclear receptor subfamily 1, group I, member 2 (NR1I2), transcript variant 3, aka PAR, PRR, SAR, PAR1, ONR1, BXR, SXR, PXR, PAR2, PARq, ACCESSION NUMBER NM_033013.1; nuclear receptor subfamily 1, group I, member 2 (NR1I2), transcript variant 2, aka PAR, PRR, SAR, PAR1, ONR1, BXR, SXR, PXR, PAR2, PARq, ACCESSION NUMBER NM_022002.1; nuclear receptor subfamily 1, group I, member 3 (NR1I3), transcript variant 6, aka MB67, CAR1, CAR, MGC97209, MGC150433, MGC97144, ACCESSION NUMBER NM_001077469.1; nuclear receptor subfamily 1, group I, member 3 (NR1I3), transcript variant 15, aka MB67, CAR1, CAR, MGC97209, MGC150433, MGC97144, ACCESSION NUMBER NM_001077475.1; nuclear receptor subfamily 2, group C, member 1 (NR2C1), transcript variant 2, aka TR2-11, TR2, ACCESSION NUMBER NM_001032287.1; nuclear receptor subfamily 2, group C, member 1 (NR2C1), transcript variant 2, aka TR2-11, TR2, ACCESSION NUMBER NM_001032287.1; nuclear receptor subfamily 2, group C, member 1 (NR2C1), transcript variant 1, aka TR2-11, TR2, ACCESSION NUMBER NM_003297.1; nuclear receptor subfamily 2, group C, member 2 (NR2C2), aka TAK1, hTAK1, TR4, TR2R1, ACCESSION NUMBER NM_003298.3; nuclear receptor subfamily 2, group E, member 1 (NR2E1), aka TLX, TLL, XTLL, ACCESSION NUMBER NM_003269.2; nuclear receptor subfamily 2, group E, member 3 (NR2E3), transcript variant 2, aka rd7, ESCS, PNR, RNR, MGC49976, ACCESSION NUMBER NM_014249.2; nuclear receptor subfamily 2, group E, member 3 (NR2E3), transcript variant 2, aka rd7, ESCS, PNR, RNR, MGC49976, ACCESSION NUMBER NM_014249.2; nuclear receptor subfamily 2, group E, member 3 (NR2E3), transcript variant 1, aka rd7, ESCS, PNR, RNR, MGC49976, ACCESSION NUMBER NM_016346.2; nuclear receptor subfamily 2, group F, member 1 (NR2F1), aka ERBAL3, COUP-TFI, TFCOUP1, EAR3, TCFCOUP1, EAR-3, NR2F2, SVP44, ACCESSION NUMBER NM_005654.4; nuclear receptor subfamily 2, group F, member 2 (NR2F2), aka COUP-TFII, TFCOUP2, MGC117452, COUPTFB, SVP40, ARP1, ACCESSION NUMBER NM_021005.2; nuclear receptor subfamily 2, group F, member 6 (NR2F6), aka EAR-2, EAR2, ERBAL2, ACCESSION NUMBER NM_005234.3; nuclear receptor subfamily 3, group C, member 1 (glucocorticoid receptor) (NR3C1), transcript variant 4, aka GCCR, GRL, GCR, GR, ACCESSION NUMBER NM_001018076.1; nuclear receptor subfamily 3, group C, member 1 (glucocorticoid receptor) (NR3C1), transcript variant 1, aka GCCR, GRL, GCR, GR, ACCESSION NUMBER NM_001018077.1; nuclear receptor subfamily 3, group C, member 1 (glucocorticoid receptor) (NR3C1), transcript variant 6, aka GCCR, GRL, GCR, GR, ACCESSION NUMBER NM_001020825.1; nuclear receptor subfamily 3, group C, member 2 (NR3C2), aka MGC133092, MR, MLR, MCR, ACCESSION NUMBER NM_000901.1; nuclear receptor subfamily 4, group A, member 1 (NR4A1), transcript variant 2, aka N10, NUR77, NP10, NAK-1, MGC9485, GFRP1, NGFIB, HMR, TR3, ACCESSION NUMBER NM_173157.1; nuclear receptor subfamily 4, group A, member 1 (NR4A1), transcript variant 3, aka N10, NUR77, NP10, NAK-1, MGC9485, GFRP1, NGFIB, HMR, TR3, ACCESSION NUMBER NM_173158.1; nuclear receptor subfamily 4, group A, member 1 (NR4A1), transcript variant 1, aka N10, NUR77, NP10, NAK-1, MGC9485, GFRP1, NGFIB, HMR, TR3, ACCESSION NUMBER NM_002135.3; nuclear receptor subfamily 4, group A, member 2 (NR4A2), transcript variant 1, aka RNR1, NOT, TINUR, NURR1, HZF-3, ACCESSION NUMBER NM_006186.2; nuclear receptor subfamily 4, group A, member 3 (NR4A3), transcript variant 4, aka CHN, CSMF, TEC, NOR1, MINOR, ACCESSION NUMBER NM_173199.1; nuclear receptor subfamily 4, group A, member 3 (NR4A3), transcript variant 3, aka CHN, CSMF, TEC, NOR1, MINOR, ACCESSION NUMBER NM_173200.1; nuclear receptor subfamily 4, group A, member 3 (NR4A3), transcript variant 1, aka CHN, CSMF, TEC, NOR1, MINOR, ACCESSION NUMBER NM_006981.2; nuclear receptor subfamily 4, group A, member 3 (NR4A3), transcript variant 2, aka CHN, CSMF, TEC, NOR1, MINOR, ACCESSION NUMBER NM_173198.1; nuclear receptor subfamily 4, group A, member 3 (NR4A3), transcript variant 2, aka CHN, CSMF, TEC, NOR1, MINOR, ACCESSION NUMBER NM_173198.1; nuclear receptor subfamily 5, group A, member 1 (NR5A1), aka SF1, FTZ1, ELP, FTZF1, AD4BP, SF-1, ACCESSION NUMBER NM_004959.3; nuclear receptor subfamily 5, group A, member 2 (NR5A2), transcript variant 1, aka FTF, B1F2, F1Z-F1beta, hB1F, hB1F-2, LRH-1, B1F, FTZ-F1, CPF, ACCESSION NUMBER NM_205860.1; nuclear receptor subfamily 5, group A, member 2 (NR5A2), transcript variant 2, aka FTF, B1F2, F1Z-F1beta, hB1F, hB1F-2, LRH-1, B1F, CPF, ACCESSION NUMBER NM_003822.3; nuclear receptor subfamily 5, group A, member 2 (NR5A2), transcript variant 2, aka FTF, B1F2, F1Z-F1beta, hB1F, hB1F-2, LRH-1, B1F, FTZ-F1, CPF, ACCESSION NUMBER NM_003822.3; nuclear receptor subfamily 6, group A, member 1 (NR6A1), transcript variant 2, aka NR61, GCNF1, RTR, GCNF, ACCESSION NUMBER NM_001489.3; nuclear receptor subfamily 6, group A, member 1 (NR6A1), transcript variant 2, aka NR61, GCNF1, RTR, GCNF, ACCESSION NUMBER NM_001489.3; nuclear respiratory factor 1 (NRF1), transcript variant 2, aka ALPHA-PAL, ACCESSION NUMBER NM_001040110.1; nuclear respiratory factor 1 (NRF1), transcript variant 1, aka ALPHA-PAL, ACCESSION NUMBER NM_005011.3; nuclear respiratory factor 1 (NRF1), transcript variant 1, aka ALPHA-PAL, ACCESSION NUMBER NM_005011.3; Nik related kinase (NRK), aka DKFZp686A17109, FLJ16788, NESK, MGC131849, ACCESSION NUMBER NM_198465.2; neural retina leucine zipper (NRL), aka D14S46E, RP27, ACCESSION NUMBER NM_006177.3; oligodendrocyte lineage transcription factor 2 (OLIG2), aka PRKCBP2, RACK17, OLIGO2, BHLHB1, ACCESSION NUMBER NM_005806.2; one cut homeobox 1 (ONECUT1), aka HNF-6, HNF6, HNF6A, ACCESSION NUMBER NM_004498.1; one cut homeobox 2 (ONECUT2), aka OC-2, OC2, MGC120378, MGC120377, ACCESSION NUMBER NM_004852.2; one cut homeobox 3 (ONECUT3), ACCESSION NUMBER NM_001080488.1; orthopedia homeobox (OTP), aka MGC3161, ACCESSION NUMBER NM_032109.2; orthodenticle homeobox 1 (OTX1), aka FLJ38361, MGC15736, ACCESSION NUMBER NM_014562.2; orthodenticle homeobox 2 (OTX2), transcript variant 2, aka MCOPS5, MGC45000, ACCESSION NUMBER NM_172337.1; orthodenticle homeobox 2 (OTX2), transcript variant 2, aka MCOPS5, MGC45000, ACCESSION NUMBER NM_172337.1; orthodenticle homeobox 2 (OTX2), transcript variant 1, aka MCOPS5, MGC45000, ACCESSION NUMBER NM_021728.2; ovo-like 1(Drosophila) (OVOL1), aka HOVO1, ACCESSION NUMBER NM_004561.2; proliferation-associated 2G4, 38 kDa (PA2G4), aka p38-2G4, HG4-1, EBP1, ACCESSION NUMBER NM_006191.2; paired box 3 (PAX3), transcript variant PAX3, aka WS1, MGC120381, HUP2, CDHS, MGC120383, MGC120384, MGC134778, MGC120382, ACCESSION NUMBER NM_181457.1; paired box 3 (PAX3), transcript variant PAX3A, aka WS1, MGC120381, HUP2, CDHS, MGC120383, MGC120384, MGC134778, MGC120382, ACCESSION NUMBER NM_000438.3; paired box 3 (PAX3), transcript variant PAX3A, aka WS1, MGC120381, HUP2, CDHS, MGC120383, MGC120384, MGC134778, MGC120382, ACCESSION NUMBER NM_000438.3; paired box 3 (PAX3), transcript variant PAX3D, aka WS1, MGC120381, HUP2, CDHS, MGC120383, MGC120384, MGC134778, MGC120382, ACCESSION NUMBER NM_181458.1; paired box 4 (PAX4), aka MGC129960, ACCESSION NUMBER NM_006193.1; paired box 5 (PAX5), aka BSAP, ACCESSION NUMBER NM_016734.1; paired box 6 (PAX6), transcript variant 1, aka WAGR, D11S812E, AN2, MGDA, MGC17209, AN, ACCESSION NUMBER NM_000280.2; paired box 6 (PAX6), transcript variant 2, aka WAGR, D11S812E, AN2, MGDA, MGC17209, AN, ACCESSION NUMBER NM_001604.3; paired box 7 (PAX7), transcript variant 1, aka PAX7B, HUP1, ACCESSION NUMBER NM_002584.1; paired box 8 (PAX8), transcript variant PAX8D, ACCESSION NUMBER NM_013953.3; paired box 8 (PAX8), transcript variant PAX8A, ACCESSION NUMBER NM_003466.3; paired box 8 (PAX8), transcript variant PAX8A, ACCESSION NUMBER NM_003466.3; pre-B-cell leukemia homeobox 1 (PBX1), aka DKFZp686B09108, MGC126627, ACCESSION NUMBER NM_002585.1; pre-B-cell leukemia homeobox 2 (PBX2), aka G17, PBX2MHC, HOX12, ACCESSION NUMBER NM_002586.4; pre-B-cell leukemia homeobox 3 (PBX3), ACCESSION NUMBER NM_006195.4; pre-B-cell leukemia homeobox 4 (PBX4), ACCESSION NUMBER NM_025245.1; polycomb group ring finger 2 (PCGF2), aka MGC10545, RNF110, MEL-18, ZNF144, ACCESSION NUMBER NM_007144.2; polycomb group ring finger 6 (PCGF6), transcript variant 2, aka MBLR, MGC15678, MGC17541, RNF134, ACCESSION NUMBER NM_032154.3; polycomb group ring finger 6 (PCGF6), transcript variant 1, aka MBLR, MGC15678, MGC17541, RNF134, ACCESSION NUMBER NM_001011663.1; paternally expressed 3 (PEG3), aka DKFZp781A095, ZSCAN24, KIAA0287, PW1, ACCESSION NUMBER NM_006210.1; prefoldin subunit 1 (PFDN1), aka PDF, PFD1, ACCESSION NUMBER NM_002622.4; piggyBac transposable element derived 1 (PGBD1), aka dJ874C20.4, SCAND4, HUCEP-4, ACCESSION NUMBER NM_032507.2; progesterone receptor (PGR), aka PR, NR3C3, ACCESSION NUMBER NM_000926.3; PHD finger protein 1 (PHF1), transcript variant 1, aka PHF2, ACCESSION NUMBER NM_002636.3; PHD finger protein 1 (PHF1), transcript variant 2, aka PHF2, ACCESSION NUMBER NM_024165.1; PHD finger protein 1 (PHF1), transcript variant 2, aka PHF2, ACCESSION NUMBER NM_024165.1; PHD finger protein 2 (PHF2), aka MGC176680, KIAA0662, GRC5, JHDM1E, ACCESSION NUMBER NM_005392.3; PHD finger protein 2 (PHF2), aka MGC176680, KIAA0662, GRC5, JHDM1E, ACCESSION NUMBER NM_005392.3; PHD finger protein 5A (PHF5A), aka INI, bK223H9.2, SF3b14b, MGC1346, ACCESSION NUMBER NM_032758.3; paired-like homeobox 2a (PHOX2A), aka NCAM2, MGC52227, CFEOM2, PMX2A, FEOM2, ARIX, ACCESSION NUMBER NM_005169.2; paired-like homeobox 2b (PHOX2B), aka PMX2B, NBPhox, ACCESSION NUMBER NM_003924.2; putative homeodomain transcription factor 1 (PHTF1), aka PHTF, ACCESSION NUMBER NM_006608.1; paired-like homeodomain transcription factor 1 (PITX1), aka POTX, PTX1, BFT, ACCESSION NUMBER NM_002653.3; paired-like homeodomain 2 (PITX2), transcript variant 2, aka MGC111022, IGDS, RS, IDG2, RIEG, PTX2, IGDS2, Brx1, ARP1, RIEG1, IHG2, IRID2, RGS, Otlx2, MGC20144, ACCESSION NUMBER NM_153426.1; paired-like homeodomain 2 (PITX2), transcript variant 1, aka MGC111022, IGDS, RS, IDG2, RIEG, PTX2, IGDS2, Brx1, ARP1, RIEG1, IHG2, IRID2, RGS, Otlx2, MGC20144, ACCESSION NUMBER NM_153427.1; paired-like homeodomain 2 (PITX2), transcript variant 3, aka MGC111022, IGDS, RS, IDG2, RIEG, PTX2, IGDS2, Brx1, ARP1, RIEG1, IHG2, IRID2, RGS, Otlx2, MGC20144, ACCESSION NUMBER NM_000325.5; paired-like homeodomain 3 (PITX3), aka PTX3, MGC12766, ACCESSION NUMBER NM_005029.3; PBX/knotted 1 homeobox 1 (PKNOX1), aka PREP1, pkonx1c, ACCESSION NUMBER NM_004571.3; PBX/knotted 1 homeobox 1 (PKNOX1), aka PREP1, pkonx1c, ACCESSION NUMBER NM_004571.3; PBX/knotted 1 homeobox 2 (PKNOX2), aka FLJ13074, PREP2, ACCESSION NUMBER NM_022062.2; pleiomorphic adenoma gene 1 (PLAG1), aka PSA, SGPA, ACCESSION NUMBER NM_002655.1; pleiomorphic adenoma gene 1 (PLAG1), Accession number XM_001126483.1; pleiomorphic adenoma gene-like 2 (PLAGL2), aka FLJ23283, ACCESSION NUMBER NM_002657.2; promyelocytic leukemia (PML), transcript variant 2, aka PP8675, RNF71, MYL, TRIM19, ACCESSION NUMBER NM_033240.2; promyelocytic leukemia (PML), transcript variant 1, aka PP8675, RNF71, MYL, TRIM19, ACCESSION NUMBER NM_033238.2; promyelocytic leukemia (PML), transcript variant 9, aka PP8675, RNF71, MYL, TRIM19 ACCESSION NUMBER NM_033239.2; promyelocytic leukemia (PML), transcript variant 9, aka PP8675, RNF71, MYL, TRIM19, ACCESSION NUMBER NM_033239.2; promyelocytic leukemia (PML), transcript variant 7, aka PP8675, RNF71, MYL, TRIM19, ACCESSION NUMBER NM_033246.2; POU class 1 homeobox 1 (POU1F1), aka GHF-1, Pit-1 beta, PIT1, Pit-1, ACCESSION NUMBER NM_000306.1; POU class 2 homeobox 1 (POU2F1), aka OCT1, OTF1, ACCESSION NUMBER NM_002697.2; POU domain, class 2, transcription factor 2 (POU2F2), aka OCT2, OTF2, Oct-2, ACCESSION NUMBER NM_002698.1; POU domain, class 2, transcription factor 3 (POU2F3), aka MGC126698, Skn-1a, FLJ40063, PLA-1, OCT11, Epoc-1, ACCESSION NUMBER NM_014352.1; POU class 3 homeobox 1 (POU3F1), aka OCT6, SCIP, OTF6, ACCESSION NUMBER NM_002699.3; POU class 3 homeobox 2 (POU3F2), aka OTF7, OCT7, BRN2, POUF3, ACCESSION NUMBER NM_005604.2; POU class 3 homeobox 3 (POU3F3), aka BRN1, OTF8, ACCESSION NUMBER NM_006236.1; POU class 3 homeobox 4 (POU3F4), aka BRN4, OTF9, BRAIN-4, DFN3, ACCESSION NUMBER NM_000307.2; POU class 4 homeobox 1 (POU4F1), aka RDC-1, Oct-T1, BRN3A, FLJ13449, ACCESSION NUMBER NM_006237.3; POU class 4 homeobox 2 (POU4F2), aka Brn-3b, BRN3.2, BRN3B, ACCESSION NUMBER NM_004575.2; POU class 4 homeobox 3 (POU4F3), aka DFNA15, MGC138412, BRN3C, ACCESSION NUMBER NM_002700.1; POU class 5 homeobox 1 (POU5F1), transcript variant 1, aka OTF4, OCT3, OCT4, MGC22487, OTF3, ACCESSION NUMBER NM_002701.4; POU domain class 5, transcription factor 2 (POU5F2), aka FLJ25680, DKFZp686P02123, SPRM-1, ACCESSION NUMBER NM_153216.1; POU class 6 homeobox 1 (POU6F1), aka BRN5, MPOU, TCFB1, ACCESSION NUMBER NM_002702.2; POU class 6 homeobox 2 (POU6F2), aka WTSL, RPF-1, WT5, ACCESSION NUMBER NM_007252.2; peroxisome proliferator-activated receptor alpha (PPARA), transcript variant 3, aka PPAR, hPPAR, MGC2452, NR1C1, MGC2237, ACCESSION NUMBER NM_001001928.2; peroxisome proliferator-activated receptor alpha (PPARA), transcript variant 3, aka PPAR, hPPAR, MGC2452, NR1C1, MGC2237, ACCESSION NUMBER NM_001001928.2; peroxisome proliferator-activated receptor alpha (PPARA), transcript variant 3, aka PPAR, hPPAR, MGC2452, NR1C1, MGC2237, ACCESSION NUMBER NM_001001928.2; peroxisome proliferative activated receptor, delta (PPARD), transcript variant 1, aka PPARB, NUC1, FAAR, PPAR-beta, NUC1, NUCII, MGC3931, NR1C2, ACCESSION NUMBER NM_006238.2; peroxisome proliferator-activated receptor delta (PPARD), aka PPARB, NUCI, FAAR, PPAR-beta, NUC1, NUCII, MGC3931, NR1C2, ACCESSION NUMBER NM_006238.3; peroxisome proliferator-activated receptor gamma (PPARG), transcript variant 3, aka NR1C3, PPARG1, PPARG2, ACCESSION NUMBER NM_138711.3; peroxisome proliferator-activated receptor gamma (PPARG), transcript variant 2, aka NR1C3, PPARG1, PPARG2, ACCESSION NUMBER NM_015869.4; peroxisome proliferator-activated receptor gamma (PPARG), transcript variant 2, aka NR1C3, PPARG1, PPARG2, ACCESSION NUMBER NM_015869.4; peroxisome proliferator-activated receptor gamma (PPARG), transcript variant 1, aka NR1C3, PPARG1, PPARG2, ACCESSION NUMBER NM_138712.3; PR domain containing 1, with ZNF domain (PRDM1), transcript variant 2, aka MGC118922, BLIMP1, PRDI-BF1, MGC118925, MGC118924, MGC118923, ACCESSION NUMBER NM_182907.1; PR domain containing 1, with ZNF domain (PRDM1), transcript variant 1, aka MGC118922, BLIMP1, PRDI-BF1, MGC118925, MGC118924, MGC118923, ACCESSION NUMBER NM_001198.2; PR domain containing 1, with ZNF domain (PRDM1), transcript variant 1, aka MGC118922, BLIMP1, PRDI-BF1, MGC118925, MGC118924, MGC118923, ACCESSION NUMBER NM_001198.2; PR domain containing 1, with ZNF domain (PRDM1), transcript variant 1, aka MGC118922, BLIMP1, PRDI-BF1, MGC118925, MGC118924, MGC118923, ACCESSION NUMBER NM_001198.2; PR domain containing 16 (PRDM16), transcript variant 1, aka PFM13, MEL1, KIAA1675, ACCESSION NUMBER NM_022114.2; PR domain containing 16 (PRDM16), transcript variant 1, aka PFM13, MEL1, KIAA1675, ACCESSION NUMBER NM_022114.2; PR domain containing 16 (PRDM16), transcript variant 1, aka PFM13, MEL1, KIAA1675, ACCESSION NUMBER NM_022114.2; PR domain containing 2, with ZNF domain (PRDM2), transcript variant 1, aka RIZ1, MTB-ZF, HUMHOXY1, RIZ2, RIZ, ACCESSION NUMBER NM_012231.3; PR domain containing 2, with ZNF domain (PRDM2), transcript variant 2, aka RIZ1, MTB-ZF, KMT8, HUMHOXY1, RIZ2, RIZ, ACCESSION NUMBER NM_015866.3; PROP paired-like homeobox 1 (PROP1), ACCESSION NUMBER NM_006261.2; prospero homeobox 1 (PROX1), ACCESSION NUMBER NM_002763.3; paired related homeobox 1 (PRRX1), transcript variant pmx-1a, aka PRX1, PMX1, PHOX1, ACCESSION NUMBER NM_006902.3; paired related homeobox 1 (PRRX1), transcript variant pmx-1a, aka PRX1, PMX1, PHOX1, ACCESSION NUMBER NM_006902.3; paired related homeobox 2 (PRRX2), aka PMX2, MGC19843, PRX2, ACCESSION NUMBER NM_016307.3; pituitary tumor-transforming 1 (PTTG1), aka PTTG, MGC126883, HPTTG, SECURIN, MGC138276, EAP1, TUTR1, ACCESSION NUMBER NM_004219.2; purine-rich element binding protein A (PURA), aka PURALPHA, PUR-ALPHA, PURL ACCESSION NUMBER NM_005859.3; purine-rich element binding protein B (PURB), aka MGC126786, MGC126784, PURBETA, ACCESSION NUMBER NM_033224.3; retinoic acid receptor, alpha (RARA), transcript variant 2, aka NR1B1, RAR, ACCESSION NUMBER NM_001024809.2; retinoic acid receptor, alpha (RARA), transcript variant 1, aka NR1B1, RAR, ACCESSION NUMBER NM_000964.2; retinoic acid receptor, alpha (RARA), transcript variant 1, aka NR1B1, RAR, ACCESSION NUMBER NM_000964.2; retinoic acid receptor, beta (RARB), transcript variant 1, aka RRB2, NR1B2, HAP, ACCESSION NUMBER NM_000965.2; retinoic acid receptor, beta (RARB), transcript variant 1, aka RRB2, NR1B2, HAP, ACCESSION NUMBER NM_000965.2; retinoic acid receptor, beta (RARB), transcript variant 2, aka RRB2, NR1B2, HAP, ACCESSION NUMBER NM_016152.2; retinoic acid receptor, gamma (RARG), aka RARC, NR1B3, ACCESSION NUMBER NM_000966.3; retina and anterior neural fold homeobox (RAX), aka RX, ACCESSION NUMBER NM_013435.2; retina and anterior neural fold homeobox like 1 (RAXL1), aka QRX, MGC15631, ARMD6, CORD11, ACCESSION NUMBER NM_032753.2; retinoblastoma 1 (RB1), aka RB, OSRC, ACCESSION NUMBER NM_000321.2; recombination signal binding protein for immunoglobulin kappa J region (RBPJ), transcript variant 3, aka SUH, KBF2, RBP-J, IGKJRB1, IGKJRB, RBPJK, CBF1, RBPSUH, csl, MGC61669, ACCESSION NUMBER NM_203283.1; recombination signal binding protein for immunoglobulin kappa J region (RBPJ), transcript variant 1, aka SUH, RBP-J, RBPJK, csl, KBF2, IGKJRB1, IGKJRB, CBF1, RBPSUH, MGC61669, ACCESSION NUMBER NM_005349.2; recombination signal binding protein for immunoglobulin kappa J region (RBPJ), transcript variant 4, aka SUH, RBP-J, RBPJK, csl, KBF2, IGKJRB1, IGKJRB, CBF1, RBPSUH, MGC61669, ACCESSION NUMBER NM_203284.1; recombination signal binding protein for immunoglobulin kappa J region-like (RBPJL), aka SUHL, RBPSUHL, SUH, RBP-L, ACCESSION NUMBER NM_014276.2; regulator of calcineurin 1 (RCAN1), transcript variant 3, aka ADAPT78, MCIP1, DSC1, CSP1, DSCR1, RCN1, ACCESSION NUMBER NM_203418.1; regulator of calcineurin 1 (RCAN1), transcript variant 2, aka ADAPT78, MCIP1, DSC1, CSP1, DSCR1, RCN1, ACCESSION NUMBER NM_203417.1; regulator of calcineurin 1 (RCAN1), transcript variant 1, aka ADAPT78, MCIP1, DSC1, CSP1, DSCR1, RCN1, ACCESSION NUMBER NM_004414.5; REST corepressor 2 (RCOR2), ACCESSION NUMBER NM_173587.2; v-rel reticuloendotheliosis viral oncogene homolog (avian) (REL), aka C-Rel, ACCESSION NUMBER NM_002908.2; v-rel reticuloendotheliosis viral oncogene homolog A (avian) (RELA), aka NFKB3, MGC131774, ACCESSION NUMBER NM_021975.2; v-rel reticuloendotheliosis viral oncogene homolog B (RELB), aka I-REL, ACCESSION NUMBER NM_006509.2; arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant 3, aka ARP, ATN1L, ARG, KIAA0458, DNB1, FLJ38775, ACCESSION NUMBER NM_001042682.1; arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant 1, aka ARP, ATN1L, ARG, KIAA0458, DNB1, FLJ38775, ACCESSION NUMBER NM_012102.3; arginine-glutamic acid dipeptide (RE) repeats (RERE), transcript variant 1, aka ARP, ATN1L, ARG, KIAA0458, DNB1, FLJ38775, ACCESSION NUMBER NM_012102.3; REX4, RNA exonuclease 4 homolog (S. cerevisiae) (REXO4), aka XPMC2, XPMC2H, ACCESSION NUMBER NM_020385.2; regulatory factor X, 1 (influences HLA class II expression) (RFX1), aka EF-C, ACCESSION NUMBER NM_002918.3; regulatory factor X, 3 (influences HLA class II expression) (RFX3), transcript variant 1, aka bA32F11.1, MGC87155, ACCESSION NUMBER NM_002919.2; regulatory factor X, 3 (influences HLA class II expression) (RFX3), transcript variant 2, aka bA32F11.1, MGC87155, ACCESSION NUMBER NM_134428.1; regulatory factor X, 3 (influences HLA class II expression) (RFX3), transcript variant 2, aka bA32F11.1, MGC87155, ACCESSION NUMBER NM_134428.1; regulatory factor X, 5 (influences HLA class II expression) (RFX5), transcript variant 1, ACCESSION NUMBER NM_000449.3; regulatory factor X, 5 (influences HLA class II expression) (RFX5), transcript variant 2, ACCESSION NUMBER NM_001025603.1; regulatory factor X-associated ankyrin-containing protein (RFXANK), transcript variant 1, aka BLS, RFX-B, MGC138628, F14150_1, ANKRA1, ACCESSION NUMBER NM_003721.2; regulatory factor X-associated ankyrin-containing protein (RFXANK), transcript variant 1, aka BLS, RFX-B, MGC138628, F14150_1, ANKRA1, ACCESSION NUMBER NM_003721.2; regulatory factor X-associated ankyrin-containing protein (RFXANK), transcript variant 2, aka BLS, RFX-B, MGC138628, F14150_1, ANKRA1, ACCESSION NUMBER NM_134440.1; regulatory factor X-associated protein (RFXAP), ACCESSION NUMBER NM_000538.2; Rhox homeobox family, member 1 (RHOXF1), aka MGC119030, MGC119033, OTEX, PEPP1, ACCESSION NUMBER NM_139282.1; rearranged L-myc fusion (RLF), aka ZNF292L, Zn-15L, MGC142226, ACCESSION NUMBER NM_012421.2; ring finger protein 20 (RNF20), aka FLJ20382, KIAA2779, FLJ11189, BRE1A, MGC129667, MGC129668, ACCESSION NUMBER NM_019592.5; ring finger protein 4 (RNF4), aka RES4-26, SNURF, ACCESSION NUMBER NM_002938.2; RAR-related orphan receptor A (RORA), transcript variant 2, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_134260.1; RAR-related orphan receptor A (RORA), transcript variant 1, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_134261.1; RAR-related orphan receptor A (RORA), transcript variant 4, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_134262.1; RAR-related orphan receptor A (RORA), transcript variant 3, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_002943.2; RAR-related orphan receptor A (RORA), transcript variant 3, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_002943.2; RAR-related orphan receptor A (RORA), transcript variant 3, aka NR1F1, MGC119326, ROR2, RZRA, ROR1, MGC119329, ROR3, ACCESSION NUMBER NM_002943.2; RAR-related orphan receptor B (RORB), aka NR1F2, RZRB, bA133M9.1, ROR-BETA, ACCESSION NUMBER NM_006914.3; RAR-related orphan receptor C (RORC), transcript variant 2, aka MGC129539, RORG, RZRG, NR1F3, TOR, ACCESSION NUMBER NM_001001523.1; RAR-related orphan receptor C (RORC), transcript variant 2, aka MGC129539, RORG, RZRG, NR1F3, TOR, ACCESSION NUMBER NM_001001523.1; RAR-related orphan receptor C (RORC), transcript variant 2, aka MGC129539, RORG, RZRG, NR1F3, TOR, ACCESSION NUMBER NM_001001523.1; RAR-related orphan receptor C (RORC), transcript variant 1, aka MGC129539, RZRG, NR1F3, RORG, TOR, ACCESSION NUMBER NM_005060.3; runt-related transcription factor 1 (acute myeloid leukemia 1, aml1 oncogene) (RUNX1), transcript variant 2, aka AMLCR1, PEBP2aB, PEBP2A2, EVI-1, CBFA2, AML1, AML1-EVI-1, ACCESSION NUMBER NM_001001890.1; runt-related transcription factor 1 (acute myeloid leukemia 1, aml1 oncogene) (RUNX1), transcript variant 1, aka AMLCR1, PEBP2aB, EVI-1, CBFA2, AML1, AML1-EVI-1, ACCESSION NUMBER NM_001754.3; runt-related transcription factor 1 (acute myeloid leukemia 1, aml1 oncogene) (RUNX1), transcript variant 1, aka AMLCR1, PEBP2aB, EVI-1, CBFA2, AML1, AML1-EVI-1, ACCESSION NUMBER NM_001754.3; runt-related transcription factor 1, translocated to, 1 (cyclin D-related) (RUNX1T1), transcript variant 4, aka ZMYND2, MTG8b, AML1T1, MGC2796, CBFA2T1, CDR, MTG8, ETO, ACCESSION NUMBER NM_175636.1; runt-related transcription factor 1, translocated to, 1 (cyclin D-related) (RUNX1T1), transcript variant 3, aka ZMYND2, MTG8b, AML1T1, MGC2796, CBFA2T1, CDR, MTG8, ETO, ACCESSION NUMBER NM_175635.1; runt-related transcription factor 1, translocated to, 1 (cyclin D-related) (RUNX1T1), transcript variant 2, aka ZMYND2, MTG8b, AML1T1, MGC2796, CBFA2T1, CDR, MTG8, ETO, ACCESSION NUMBER NM_175634.1; runt-related transcription factor 1, translocated to, 1 (cyclin D-related) (RUNX1T1), transcript variant 1, aka ZMYND2, MTG8b, AML1T1, MGC2796, CBFA2T1, CDR, MTG8, ETO, ACCESSION NUMBER NM_004349.2; runt-related transcription factor 1, translocated to, 1 (cyclin D-related) (RUNX1T1), transcript variant 1, aka ZMYND2, MTG8b, AML1T1, MGC2796, CBFA2T1, CDR, MTG8, ETO, ACCESSION NUMBER NM_004349.2; runt-related transcription factor 2 (RUNX2), transcript variant 3, aka PEBP2A2, MGC120023, PEA2aA, CBFA1, MGC120022, AML3, OSF2, PEBP2aA1, PEBP2A1, PEBP2aA, CCD1, CCD, ACCESSION NUMBER NM_004348.3; runt-related transcription factor 2 (RUNX2), transcript variant 2, aka PEBP2A2, MGC120023, PEA2aA, CBFA1, MGC120022, AML3, OSF2, PEBP2aA1, PEBP2A1, PEBP2aA, CCD1, CCD, ACCESSION NUMBER NM_001015051.2; runt-related transcription factor 2 (RUNX2), transcript variant 1, aka PEBP2A2, MGC120023, PEA2aA, CBFA1, MGC120022, AML3, OSF2, PEBP2aA1, PEBP2A1, PEBP2aA, CCD1, CCD, ACCESSION NUMBER NM_001024630.2; runt-related transcription factor 3 (RUNX3), transcript variant 2, aka FLJ34510, MGC16070, PEBP2aC, CBFA3, AML2, ACCESSION NUMBER NM_004350.2; runt-related transcription factor 3 (RUNX3), transcript variant 1, aka FLJ34510, MGC16070, PEBP2aC, CBFA3, AML2, ACCESSION NUMBER NM_001031680.2; retinoid X receptor, alpha (RXRA), aka MGC102720, FLJ16020, FLJ16733, NR2B1, ACCESSION NUMBER NM_002957.3; retinoid X receptor, beta (RXRB), aka NR2B2, MGC1831, RCoR-1, H-2RIIBP, DAUDI6, ACCESSION NUMBER NM_021976.3; retinoid X receptor, gamma (RXRG), transcript variant 1, aka NR2B3, RXRC, ACCESSION NUMBER NM_006917.3; retinoid X receptor, gamma (RXRG), transcript variant 2, aka RXRC, NR2B3, ACCESSION NUMBER NM_001009598.1; retinoid X receptor, gamma (RXRG), transcript variant 2, aka RXRC, NR2B3, ACCESSION NUMBER NM_001009598.1; sal-like 1 (Drosophila) (SALL1), transcript variant 1, aka TBS, HSAL1, ZNF794; ACCESSION NUMBER NM_002968.2; sal-like 2 (Drosophila) (SALL2), aka FLJ10414, KIAA0360, ZNF795, HSAL2, p150(Sal2), ACCESSION NUMBER NM_005407.1; SATB homeobox 1 (SATB1), ACCESSION NUMBER NM_002971.2; SATB homeobox 2 (SATB2), aka MGC119474, MGC119477, KIAA1034, FLJ21474, FLJ32076, ACCESSION NUMBER NM_015265.1; SCAN domain containing 1 (SCAND1), transcript variant 2, aka RAZ1, SDP1, ACCESSION NUMBER NM_033630.1; SCAN domain containing 1 (SCAND1), transcript variant 1, aka RAZ1, SDP1, ACCESSION NUMBER NM_016558.2; SCAN domain containing 1 (SCAND1), transcript variant 1, aka RAZ1, SDP1, ACCESSION NUMBER NM_016558.2; sex comb on midleg homolog 1 (Drosophila) (SCMH1), transcript variant 2, aka Scml3, ACCESSION NUMBER NM_012236.2; sex comb on midleg homolog 1 (Drosophila) (SCMH1), transcript variant 1, aka Scml3, ACCESSION NUMBER NM_001031694.1; sex comb on midleg homolog 1 (Drosophila) (SCMH1), transcript variant 1, aka Scml3, ACCESSION NUMBER NM_001031694.1; sex comb on midleg homolog 1 (Drosophila) (SCMH1), transcript variant 1, aka Scml3, ACCESSION NUMBER NM_001031694.1; sex comb on midleg-like 1 (Drosophila) (SCML1), transcript variant 1, ACCESSION NUMBER NM_001037540.1; sex comb on midleg-like 1 (Drosophila) (SCML1), transcript variant 1, ACCESSION NUMBER NM_001037540.1; sex comb on midleg-like 1 (Drosophila) (SCML1), transcript variant 1, ACCESSION NUMBER NM_001037540.1; sex comb on midleg-like 2 (Drosophila) (SCML2), ACCESSION NUMBER NM_006089.1; scratch homolog 1, zinc finger protein (Drosophila) (SCRT1), aka DKFZp547F072, SCRT, ACCESSION NUMBER NM_031309.4; scratch homolog 1, zinc finger protein (Drosophila) (SCRT1), aka DKFZp547F072, SCRT, ACCESSION NUMBER NM_031309.3; SEBOX homeobox (SEBOX), transcript variant 1, aka OG-9, OG9X, OG9, ACCESSION NUMBER NM_001080837.1; SEBOX homeobox (SEBOX), transcript variant 1, aka OG-9, OG9X, OG9, ACCESSION NUMBER NM_001080837.1; short stature homeobox (SHOX), transcript variant 2, aka GCFX, SHOXY, SS, PHOG, ACCESSION NUMBER NM_006883.2; short stature homeobox (SHOX), transcript variant 2, aka GCFX, SHOXY, SS, PHOG, ACCESSION NUMBER NM_006883.2; short stature homeobox 2 (SHOX2), transcript variant SHOX2a, aka OG12X, SHOT, OG12, OGI2X, ACCESSION NUMBER NM_006884.2; short stature homeobox 2 (SHOX2), transcript variant SHOX2a, aka OG12X, SHOT, OG12, OGI2X, ACCESSION NUMBER NM_006884.2; single-minded homolog 1 (Drosophila) (SIM1), ACCESSION NUMBER NM_005068.2; single-minded homolog 2 (Drosophila) (SIM2), transcript variant SIM2, aka MGC119447, SIM, ACCESSION NUMBER NM_005069.2; single-minded homolog 2 (Drosophila) (SIM2), transcript variant SIM2, aka MGC119447, SIM, ACCESSION NUMBER NM_005069.2; SIX homeobox 1 (SIX1), aka BOS3, TIP39, DFNA23, ACCESSION NUMBER NM_005982.2; SIX homeobox 2 (SIX2), ACCESSION NUMBER NM_016932.3; sine oculis homeobox homolog 3 (Drosophila) (SIX3), aka HPE2, ACCESSION NUMBER NM_005413.1; SIX homeobox 4 (SIX4), aka MGC119452, MGC119453, MGC119450, AREC3, ACCESSION NUMBER NM_017420.3; SIX homeobox 5 (SIX5), aka DMAHP, BOR2, ACCESSION NUMBER NM_175875.3; SIX homeobox 6 (SIX6), aka MCOPCT2, OPTX2, Six9, ACCESSION NUMBER NM_007374.1; solute carrier family 26, member 3 (SLC26A3), aka CLD, DRA, ACCESSION NUMBER NM_000111.1; SLC2A4 regulator (SLC2A4RG), aka GEF, Si-1-2, Si-1-2-19, HDBP1, ACCESSION NUMBER NM_020062.3; solute carrier family 30 (zinc transporter), member 9 (SLC30A9), aka C4orf1, HUEL, ZNT9, GAC63, ACCESSION NUMBER NM_006345.3; SMAD family member 1 (SMAD1), transcript variant 1, aka MADR1, BSP1, JV41, JV4-1, MADH1, ACCESSION NUMBER NM_005900.2; SMAD family member 1 (SMAD1), transcript variant 2, aka MADR1, JV41, JV4-1, MADH1, BSP1, ACCESSION NUMBER NM_001003688.1; SMAD family member 2 (SMAD2), transcript variant 2, aka hMAD-2, JV18, hSMAD2, MGC22139, MGC34440, MADH2, MADR2, JV18-1, ACCESSION NUMBER NM_001003652.2; SMAD family member 2 (SMAD2), transcript variant 1, aka hMAD-2, JV18, hSMAD2, MGC22139, MGC34440, MADH2, MADR2, JV18-1, ACCESSION NUMBER NM_005901.4; SMAD family member 3 (SMAD3), aka MADH3, JV15-2, HSPC193, MGC60396, Smad 3, HsT17436, DKFZp686J10186, DKFZP586N0721, ACCESSION NUMBER NM_005902.3; SMAD family member 4 (SMAD4), aka DPC4, MADH4, JIP, ACCESSION NUMBER NM_005359.3; SMAD family member 5 (SMAD5), transcript variant 1, aka Dwfc, DKFZp781O1323, MADH5, JV5-1, DKFZp781C1895, ACCESSION NUMBER NM_005903.5; SMAD family member 5 (SMAD5), transcript variant 1, aka Dwfc, DKFZp781O1323, MADH5, JV5-1, DKFZp781C1895, ACCESSION NUMBER NM_005903.5; SMAD family member 5 (SMAD5), transcript variant 2, aka Dwfc, DKFZp781O1323, MADH5, JV5-1, DKFZp781C1895, ACCESSION NUMBER NM_001001419.1; SMAD family member 6 (SMAD6), aka MADH6, HsT17432, MADH7, ACCESSION NUMBER NM_005585.3; SMAD family member 7 (SMAD7), aka MADH5, MADH7, FLJ16482, ACCESSION NUMBER NM_005904.2; SMAD family member 9 (SMAD9), aka SMAD8B, MADH9, MADH6, SMAD8A, ACCESSION NUMBER NM_005905.3; SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4), aka SNF2L4, BRG1, SWI2, SNF2, hSNF2b, BAF190, FLJ39786, SNF2-BETA, SNF2LB, ACCESSION NUMBER NM_003072.2; snail homolog 3 (Drosophila) (SNAI3), aka SNAIL3, MGC129606, Zfp293, SMUC, ZNF293, ACCESSION NUMBER NM_178310.1; small nuclear RNA activating complex, polypeptide 2, 45 kDa (SNAPC2), aka PTFdelta, SNAP45, ACCESSION NUMBER NM_003083.2; small nuclear RNA activating complex, polypeptide 5, 19 kDa (SNAPC5), aka SNAP19, ACCESSION NUMBER NM_006049.2; small optic lobes homolog (Drosophila) (SOLH), aka MGC131491, CAPN15, ACCESSION NUMBER NM_005632.2; SRY (sex determining region Y)-box 1 (SOX1), ACCESSION NUMBER NM_005986.2; SRY (sex determining region Y)-box 10 (SOX10), aka WS4, DOM, WS2E, MGC15649, ACCESSION NUMBER NM_006941.3; SRY (sex determining region Y)-box 11 (SOX11), ACCESSION NUMBER NM_003108.3; SRY (sex determining region Y)-box 13 (SOX13), aka ICA12, MGC117216, Sox-13, SRY-box 13, ACCESSION NUMBER NM_005686.2; SRY (sex determining region Y)-box 14 (SOX14), aka SOX28, MGC119898, MGC119899, SRY-box 14, ACCESSION NUMBER NM_004189.2; SRY (sex determining region Y)-box 15 (SOX15), aka SOX27, SOX26, SOX20, ACCESSION NUMBER NM_006942.1; SRY (sex determining region Y)-box 18 (SOX18), aka HLTS, ACCESSION NUMBER NM_018419.2; SRY (sex determining region Y)-box 2 (SOX2), aka ANOP3, MGC2413, MCOPS3, ACCESSION NUMBER NM_003106.2; SRY (sex determining region Y)-box 21 (SOX21), aka SOX25, ACCESSION NUMBER NM_007084.2; SRY (sex determining region Y)-box 4 (SOX4), aka EVI16, ACCESSION NUMBER NM_003107.2; SRY (sex determining region Y)-box 5 (SOX5), transcript variant 2, aka MGC35153, L-SOX5, ACCESSION NUMBER NM_152989.2; SRY (sex determining region Y)-box 5 (SOX5), transcript variant 2, aka MGC35153, L-SOX5, ACCESSION NUMBER NM_152989.2; SRY (sex determining region Y)-box 5 (SOX5), transcript variant 1, aka MGC35153, L-SOX5, ACCESSION NUMBER NM_006940.4; SRY (sex determining region Y)-box 6 (SOX6), transcript variant 2, aka HSSOX6, ACCESSION NUMBER NM_033326.2; SRY (sex determining region Y)-box 6 (SOX6), transcript variant 1, aka HSSOX6, ACCESSION NUMBER NM_017508.1; SRY (sex determining region Y)-box 6 (SOX6), transcript variant 1, aka HSSOX6, ACCESSION NUMBER NM_017508.1; SRY (sex determining region Y)-box 6 (SOX6), transcript variant 1, aka HSSOX6, ACCESSION NUMBER NM_017508.1; SRY (sex determining region Y)-box 7 (SOX7), aka MGC10895, ACCESSION NUMBER NM_031439.2; SRY (sex determining region Y)-box 8 (SOX8), aka MGC24837, ACCESSION NUMBER NM_014587.2; SRY (sex determining region Y)-box 9 (campomelic dysplasia, autosomal sex-reversal) (SOX9), aka CMPD1, CMD1, SRA1, ACCESSION NUMBER NM_000346.2; Sp1 transcription factor (SP1), ACCESSION NUMBER NM_138473.2; SP140 nuclear body protein (5P140), transcript variant 1, aka MGC126440, LYSP100-B, LYSP100-A, ACCESSION NUMBER NM_007237.3; SP140 nuclear body protein (5P140), transcript variant 2, aka MGC126440, LYSP100-B, LYSP100-A, ACCESSION NUMBER NM_001005176.1; SP140 nuclear body protein (5P140), transcript variant 2, aka MGC126440, LYSP100-B, LYSP100-A, ACCESSION NUMBER NM_001005176.1; Sp4 transcription factor (SP4), aka MGC130009, SPR-1, HF1B, MGC130008, ACCESSION NUMBER NM_003112.3; SAM pointed domain containing ets transcription factor (SPDEF), aka bA375E1.3, PDEF, RP11-375E1_A.3, ACCESSION NUMBER NM_012391.1; spleen focus forming virus (SFFV) proviral integration oncogene spi1 (SPI1), transcript variant 2, aka SPI-A, SFPI1, PU.1, OF, SPI-1, ACCESSION NUMBER NM_003120.2; spleen focus forming virus (SFFV) proviral integration oncogene spi1 (SPI1), transcript variant 1, aka SPI-A, SFPI1, PU.1, OF, SPI-1, ACCESSION NUMBER NM_001080547.1; Spi-B transcription factor (Spi-1/PU.1 related) (SPIB), aka SPI-B, ACCESSION NUMBER NM_003121.2; Spi-C transcription factor (Spi-1/PU.1 related) (SPIC), aka SPI-C, MGC40611, ACCESSION NUMBER NM_152323.1; sterol regulatory element binding transcription factor 1 (SREBF1), transcript variant 2, aka SREBP1, ACCESSION NUMBER NM_004176.3; sterol regulatory element binding transcription factor 1 (SREBF1), transcript variant 1, aka SREBP1, ACCESSION NUMBER NM_001005291.1; sterol regulatory element binding transcription factor 1 (SREBF1), transcript variant 1, aka SREBP1, ACCESSION NUMBER NM_001005291.1; serum response factor (c-fos serum response element-binding transcription factor) (SRF), aka MCM1, ACCESSION NUMBER NM_003131.2; sex determining region Y (SRY), aka TDF, TDY, ACCESSION NUMBER NM_003140.1; suppression of tumorigenicity 18 (breast carcinoma) (zinc finger protein) (ST18), aka KIAA0535, ZNF387, ACCESSION NUMBER NM_014682.1; signal transducer and activator of transcription 1, 91 kDa (STAT1), transcript variant alpha, aka ISGF-3, STAT91, DKFZp686B04100, ACCESSION NUMBER NM_007315.2; signal transducer and activator of transcription 1, 91 kDa (STAT1), transcript variant alpha, aka ISGF-3, STAT91, DKFZp686B04100, ACCESSION NUMBER NM_007315.2; signal transducer and activator of transcription 1, 91 kDa (STAT1), transcript variant beta, aka ISGF-3, STAT91, DKFZp686B04100, ACCESSION NUMBER NM_139266.1; signal transducer and activator of transcription 2, 113 kDa (STAT2), aka ISGF-3, STAT113, MGC59816, P113, ACCESSION NUMBER NM_005419.2; signal transducer and activator of transcription 3 (acute-phase response factor) (STAT3), transcript variant 3, aka APRF, F1120882, MGC16063, ACCESSION NUMBER NM_213662.1; signal transducer and activator of transcription 4 (STAT4), ACCESSION NUMBER NM_003151.2; signal transducer and activator of transcription 5A (STAT5A), aka MGF, STAT5, ACCESSION NUMBER NM_003152.2; signal transducer and activator of transcription 5B (STAT5B), aka STAT5, ACCESSION NUMBER NM_012448.3; signal transducer and activator of transcription 6, interleukin-4 induced (STAT6), aka STAT6C, D1251644, STAT6B, IL-4-STAT, ACCESSION NUMBER NM_003153.3; striatin, calmodulin binding protein 3 (STRN3), transcript variant 2, aka SG2NA, ACCESSION NUMBER NM_014574.3; suppressor of Ty 6 homolog (S. cerevisiae) (SUPT6H), aka MGC87943, SPT6H, KIAA0162, SPT6, emb-5, ACCESSION NUMBER NM_003170.3; T, brachyury homolog (mouse) (T), aka TFT, MGC104817, ACCESSION NUMBER NM_003181.2; transcriptional adaptor 2 (ADA2 homolog, yeast)-like (TADA2L), transcript variant 2, aka KL04P, F1112705, ADA2, hADA2, ACCESSION NUMBER NM_133439.2; transcriptional adaptor 2 (ADA2 homolog, yeast)-like (TADA2L), transcript variant 1, aka KL04P, F1112705, ADA2, hADA2, ACCESSION NUMBER NM_001488.3; transcriptional adaptor 2 (ADA2 homolog, yeast)-like (TADA2L), transcript variant 1, aka KL04P, F1112705, ADA2, hADA2, ACCESSION NUMBER NM_001488.3; transcriptional adaptor 3 (NGG1 homolog, yeast)-like (TADA3L), transcript variant 1, aka hADA3, FLJ20221, FLJ21329, ADA3, ACCESSION NUMBER NM_006354.2; transcriptional adaptor 3 (NGG1 homolog, yeast)-like (TADA3L), transcript variant 2, aka hADA3, FLJ20221, FLJ21329, ADA3, ACCESSION NUMBER NM_133480.1; TAF10 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 30 kDa (TAF10), aka TAF2H, TAF2A, TAFII30, ACCESSION NUMBER NM_006284.2; TAF13 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 18 kDa (TAF13), aka TAFII18, MGC22425, TAF2K, ACCESSION NUMBER NM_005645.3; TATA box binding protein (TBP)-associated factor, RNA polymerase I, B, 63 kDa (TAF1B), aka RAF1B, SL1, RAFI63, TAFI63, MGC:9349, ACCESSION NUMBER NM_005680.1; TAF4 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 135 kDa (TAF4), aka TAFII135, TAF2C1, TAF4A, TAFII130, F1141943, TAF2C, ACCESSION NUMBER NM_003185.3; TAF5 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 100 kDa (TAF5), aka TAFII100, TAF2D, ACCESSION NUMBER NM_006951.3; TAF5-like RNA polymerase II, p300/CBP-associated factor (PCAF)-associated factor, 65 kDa (TAF5L), transcript variant 1, mRNA aka PAF65B, ACCESSION NUMBER NM_0144093; TAF5-like RNA polymerase II, p300/CBP-associated factor (PCAF)-associated factor, 65 kDa (TAF5L), transcript variant 2, mRNA aka PAF65B, ACCESSION NUMBER NM_0010252471; TAF6 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 80 kDa (TAF6), transcript variant 2, mRNA aka MGC:8964, DKFZp781E21155, TAF2E, TAFII80, TAFII85, TAFII70, ACCESSION NUMBER NM_1393151; TAF6 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 80 kDa (TAF6), transcript variant 1, mRNA aka MGC:8964, DKFZp781E21155, TAF2E, TAFII80, TAFII85, TAFII70, ACCESSION NUMBER NM_0056412; TAF7 RNA polymerase II, TATA box binding protein (TBP)-associated factor, 55 kDa (TAF7) aka TAFII55, TAF2F, ACCESSION NUMBER NM_0056422; TAF7-like RNA polymerase II, TATA box binding protein (TBP)-associated factor, 50 kDa (TAF7L) aka TAF2Q, dJ738A131, FLJ23157, ACCESSION NUMBER NM_0248852; T-cell acute lymphocytic leukemia 1 (TAL1) aka tal-1, SCL, TCL5, ACCESSION NUMBER NM_0031891; TAR DNA binding protein (TARDBP) aka TDP-43, ACCESSION NUMBER NM_0073753; TATA box binding protein (TBP) aka MGC126055, SCA17, MGC117320, MGC126054, TFIID, GTF2D1, GTF2D, ACCESSION NUMBER NM_0031943; TATA box binding protein like 2 (TBPL2) aka TRF3, TBP2, ACCESSION NUMBER NM_1990472; T-box, brain, 1 (TBR1) aka TES-56, MGC141978, ACCESSION NUMBER NM_0065932; T-box 1 (TBX1), transcript variant A aka VCFS, TGA, DORV, CTHM, TBX1C, DGS, CAFS, DGCR, ACCESSION NUMBER NM_0806461; T-box 1 (TBX1), transcript variant B aka VCFS, TGA, DORV, CTHM, TBX1C, DGS, CAFS, DGCR, ACCESSION NUMBER NM_0059921; T-box 1 (TBX1), transcript variant B aka VCFS, TGA, DORV, CTHM, TBX1C, DGS, CAFS, DGCR, ACCESSION NUMBER NM_0059921; T-box 1 (TBX1), transcript variant C aka VCFS, TGA, DORV, CTHM, TBX1C, DGS; CAFS; DGCR, ACCESSION NUMBER NM_0806471; T-box 10 (TBX10), mRNA aka TBX7; TBX13, ACCESSION NUMBER NM_0059952; T-box 15 (TBX15), mRNA aka TBX14, ACCESSION NUMBER NM_1523802; T-box 18 (TBX18), ACCESSION NUMBER NM_0010805081; T-box 18 (TBX18), ACCESSION NUMBER NM_0010805081; T-box 19 (TBX19), aka TBS 19, FLJ26302, TPIT, FLJ34543, dJ747L41, TBS19, ACCESSION NUMBER NM_0051491; T-box 2 (TBX2) aka FLJ10169, ACCESSION NUMBER NM_0059943; T-box 20 (TBX20), transcript variant 2 aka ASD4, ACCESSION NUMBER NM_0204171; T-box 20 (TBX20), transcript variant 1 aka ASD4, ACCESSION NUMBER NM_0010776531; T-box 21 (TBX21) aka TBLYM, TBET, T-PET, T-bet, ACCESSION NUMBER NM_0133511; T-box 22 (TBX22), transcript variant 2 aka TBXX, dJ795G231, CLPA, ACCESSION NUMBER NM_0169542; T-box 3 (ulnar mammary syndrome) (TBX3), transcript variant 2 aka UMS, XHL, TBX3-ISO, ACCESSION NUMBER NM_0165693; T-box 3 (TBX3), transcript variant 1 aka UMS, XHL, TBX3-ISO, ACCESSION NUMBER NM_0059963; T-box 4 (TBX4) aka SPS, ACCESSION NUMBER NM_0184882; T-box 5 (TBX5), transcript variant 4 aka HOS, ACCESSION NUMBER NM_1814861; T-box 5 (TBX5), transcript variant 1 aka HOS, ACCESSION NUMBER NM_0001923; T-box 5 (TBX5), transcript variant 3 aka HOS, ACCESSION NUMBER NM_0807172; T-box 6 (TBX6), transcript variant 2 aka DFNB67, ACCESSION NUMBER NM_0807581; T-box 6 (TBX6), transcript variant 1 aka DFNB67, ACCESSION NUMBER NM_0046082; T-box 6 (TBX6), transcript variant 1 aka DFNB67, ACCESSION NUMBER NM_0046082; transcription elongation factor A (SII)-like 1 (TCEAL1), transcript variant 2 aka SIIR; p21, pp21, ACCESSION NUMBER NM_0010066391; transcription elongation factor A (SIB-like 1 (TCEAL1), transcript variant 3 aka SIIR; p21, pp21, ACCESSION NUMBER NM_0010066401; transcription factor 1, hepatic; LF-B1, hepatic nuclear factor (HNF1), albumin proximal factor (TCF1) aka MODY3, HNF1, HNF1A, LFB1, ACCESSION NUMBER NM_0005453; transcription factor 15 (basic helix-loop-helix) (TCF15) aka EC2, PARAXIS, ACCESSION NUMBER NM_0046093; transcription factor 19 (SC1) (TCF19), transcript variant 1 aka SC1, SC1-1, ACCESSION NUMBER NM_0071092; transcription factor 19 (SC1) (TCF19), transcript variant 2 aka SC1, SC1-1, ACCESSION NUMBER NM_0010775111; transcription factor 2, hepatic; LF-B3, variant hepatic nuclear factor (TCF2), transcript variant b, aka VHNF1, MODY5, HNF2, HNF1B, FJHN, HNF1beta, LFB3, ACCESSION NUMBER NM_0064811; transcription factor 2, hepatic, LF-B3; variant hepatic nuclear factor (TCF2), transcript variant a aka VHNF1, MODY5, HNF2, HNF1B, FJHN, HNF1beta, LFB3, ACCESSION NUMBER NM_0004581; transcription factor 2, hepatic, LF-B3, variant hepatic nuclear factor (TCF2), transcript variant a aka VHNF1, MODY5, HNF2, HNF1B, FJHN, HNF1beta, LFB3, ACCESSION NUMBER NM_0004581; transcription factor 21 (TCF21), transcript variant 1 aka POD1, ACCESSION NUMBER NM_1983921; transcription factor 21 (TCF21), transcript variant 1 aka POD1, ACCESSION NUMBER NM_1983921; transcription factor 21 (TCF21), transcript variant 2 aka POD1, ACCESSION NUMBER NM_0032062; transcription factor 25 (basic helix-loop-helix) (TCF25) aka hKIAA1049, NULP1, PRO2620, Hulp1, FKSG26, KIAA1049, ACCESSION NUMBER NM_0149721; transcription factor 3 (E2A immunoglobulin enhancer binding factors E12/E47) (TCF3) aka MGC129648, MGC129647, ITF1, E2A, ACCESSION NUMBER NM_0032001; transcription factor 7-like 1 (T-cell specific, HMG-box) (TCF7L1) aka TCF-3, TCF3, ACCESSION NUMBER NM_0312831; transcription factor 7-like 2 (T-cell specific, HMG-box) (TCF7L2) aka TCF-4, TCF4, ACCESSION NUMBER NM_0307562; transcription factor-like 5 (basic helix-loop-helix) (TCFL5) aka MGC46135, E2BP-1, CHA, Fig1b, ACCESSION NUMBER NM_0066022; TEA domain family member 1 (SV40 transcriptional enhancer factor) (TEAD1) aka AA, REF1, TCF13, TEF-1, ACCESSION NUMBER NM_0219614; TEA domain family member 1 (SV40 transcriptional enhancer factor) (TEAD1) aka AA, REF1, TCF13, TEF-1, ACCESSION NUMBER NM_0219614; TEA domain family member 2 (TEAD2) aka ETF, TEF-4, TEF4, ACCESSION NUMBER NM_0035981; TEA domain family member 3 (TEAD3) aka TEF-5, DTEF-1, TEF5, TEAD5, ETFR-1, ACCESSION NUMBER NM_0032143; TEA domain family member 4 (TEAD4), transcript variant 1 aka RTEF-1, MGC9014, TEF-3, TEFR-1, EFTR-2, TCF13L1, hRTEF-1B, RTEF1, ACCESSION NUMBER NM_0032132; TEA domain family member 4 (TEAD4), transcript variant 3 aka RTEF-1, MGC9014, TEF-3, TEFR-1, EFTR-2, TCF13L1, hRTEF-1B, RTEF1, ACCESSION NUMBER NM_2014431; TEA domain family member 4 (TEAD4), transcript variant 3 aka RTEF-1, MGC9014, TEF-3, TEFR-1, EFTR-2, TCF13L1, hRTEF-1B, RTEF1, ACCESSION NUMBER NM_2014431; thyrotrophic embryonic factor (TEF) aka ACCESSION NUMBER NM_0032162; transcription factor A, mitochondrial (TFAM), nuclear gene encoding mitochondrial protein aka MtTF1, mtTFA, TCF6, TCF6L2, ACCESSION NUMBER NM_0032011; transcription factor AP-2 alpha (activating enhancer binding protein 2 alpha) (TFAP2A), transcript variant 2 aka TFAP2, AP-2, AP2TF, AP-2alpha, ACCESSION NUMBER NM_0010322802; transcription factor AP-2 alpha (activating enhancer binding protein 2 alpha) (TFAP2A), transcript variant 2 aka TFAP2, AP-2, AP2TF, AP-2alpha, ACCESSION NUMBER NM_0010322802; transcription factor AP-2 alpha (activating enhancer binding protein 2 alpha) (TFAP2A), transcript variant 3 aka TFAP2, AP-2, AP2TF, AP-2alpha, ACCESSION NUMBER NM_0010424251; transcription factor AP-2 alpha (activating enhancer binding protein 2 alpha) (TFAP2A), transcript variant 1 aka TFAP2, AP-2, AP2TF, AP-2alpha, ACCESSION NUMBER NM_0032202; transcription factor AP-2 beta (activating enhancer binding protein 2 beta) (TFAP2B) aka MGC21381, AP-2B, AP2-B, ACCESSION NUMBER NM_0032213; transcription factor AP-2 gamma (activating enhancer binding protein 2 gamma) (TFAP2C) aka AP2-GAMMA, TFAP2G, hAP-2g, ERF1, ACCESSION NUMBER NM_0032223; transcription factor AP-2 delta (activating enhancer binding protein 2 delta) (TFAP2D) aka TFAP2BL1, ACCESSION NUMBER NM_1722383; transcription factor AP-2 epsilon (activating enhancer binding protein 2 epsilon) (TFAP2E) aka MGC49007, AP2E, ACCESSION NUMBER NM_1785482; transcription factor AP-4 (activating enhancer binding protein 4) (TFAP4) aka AP-4, ACCESSION NUMBER NM_0032231; transcription factor CP2 (TFCP2) aka LBP-1C, LSF, CP2, TFCP2C, SEF, ACCESSION NUMBER NM_0056533; transcription factor CP2-like 1 (TFCP2L1) aka LBP-9, LBP9, CRTR1, ACCESSION NUMBER NM_0145531; transcription factor Dp-1 (TFDP1) aka DP1, DRTF1, Dp-1, ACCESSION NUMBER NM_0071113; transcription factor Dp-2 (E2F dimerization partner 2) (TFDP2) aka Dp-2, DP2, ACCESSION NUMBER NM_0062861; transcription factor Dp family, member 3 (TFDP3) aka E2F-like, MGC161639, HCA661, CT30, ACCESSION NUMBER NM_0165212; transcription factor binding to IGHM enhancer 3 (TFE3) aka RCCP2, TFEA, ACCESSION NUMBER NM_0065213; transcription factor EB (TFEB) aka AlphaTFEB, TCFEB, ACCESSION NUMBER NM_0071621; transcription factor EC (TFEC), transcript variant 1 aka TCFEC, TFECL, ACCESSION NUMBER NM_0122522; transcription factor EC (TFEC), transcript variant 1 aka TCFEC, TFECL, ACCESSION NUMBER NM_0122522; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 4 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_0032442; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 5 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_1732091; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 1 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_1706952; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 1 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_1706952; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 8 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_1748861; TGFB-induced factor homeobox 1 (TGIF1), transcript variant 2 aka HPE4, MGC5066, MGC39747, TGIF, ACCESSION NUMBER NM_1732071; TGFB-induced factor homeobox 2 (TGIF2), ACCESSION NUMBER NM_0218095; thyroid hormone receptor, alpha (erythroblastic leukemia viral (v-erb-a) oncogene homolog, avian) (THRA), transcript variant 1 aka NR1A1, THRA1, THRA2, ERB-T-1, ERBA, ERBA1, c-ERBA-1, AR7, MGC43240, MGC000261, EAR7, ACCESSION NUMBER NM_1993342; thyroid hormone receptor, alpha (erythroblastic leukemia viral (v-erb-a) oncogene homolog, avian) (THRA), transcript variant 2 aka NR1A1, THRA, THRA2, ERB-T-1, ERBA, ERBA1, c-ERBA-1, AR7, MGC43240, MGC000261, EAR7, ACCESSION NUMBER NM_0032504; thyroid hormone receptor, alpha (erythroblastic leukemia viral (v-erb-a) oncogene homolog, avian) (THRA), transcript variant 2 aka NR1A1, THRA1, THRA2, ERB-T-1, ERBA, ERBA1, c-ERBA-1, AR7, MGC43240, MGC000261, EAR7, ACCESSION NUMBER NM_0032504; thyroid hormone receptor, beta (erythroblastic leukemia viral (v-erb-a) oncogene homolog 2, avian) (THRB) aka MGC126110, THR1, THRB1, GRTH, ERBA-BETA, MGC126109, ERBA2, THRB2, NR1A2, ACCESSION NUMBER NM_0004613; T-cell leukemia homeobox 1 (TLX1) aka MGC163402, TCL3, HOX11, ACCESSION NUMBER NM_0055212; T-cell leukemia homeobox 2 (TLX2) aka HOX11L1, NCX, Enx, ACCESSION NUMBER NM_0161703; T-cell leukemia homeobox 2 (TLX2) aka HOX11L1, NCX, Enx, ACCESSION NUMBER NM_0161703; T-cell leukemia homeobox 3 (TLX3), aka RNX, MGC29804, HOX11L2, ACCESSION NUMBER NM_0210252; trinucleotide repeat containing 4 (TNRC4), aka MGC57297, CAGH4, BRUNOL1, CELF3, ERDA4, ACCESSION NUMBER NM_0071853; tumor protein p73 (TP73), aka P73, ACCESSION NUMBER NM_0054271; tumor protein p73-like (TP73L), aka TP63, EEC3, p63, B(p51B), p73H, p51, SHFM4, OFC8, RHS, KET, B(p51A), LMS, p73L, ACCESSION NUMBER NM_0037223; tetra-peptide repeat homeobox 1 (TPRX1), aka FLJ40321, TPRX, ACCESSION NUMBER NM_1984792; transcriptional regulating factor 1 (TRERF1), aka RP1-139D85, dJ139D85, HSA277276, RAPA, TReP-132, BCAR2, ACCESSION NUMBER NM_0335021; transcriptional regulating factor 1 (TRERF1), aka RP1-139D85, dJ139D85, HSA277276, RAPA, TReP-132, BCAR2, ACCESSION NUMBER NM_0335021; transcriptional regulating factor 1 (TRERF1), aka RP1-139D85, dJ139D85, HSA277276, RAPA, TReP-132, BCAR2, ACCESSION NUMBER NM_0335021; tripartite motif-containing 15 (TRIM15), transcript variant 2, aka ZNF178, ZNFB7, RNF93, ACCESSION NUMBER NM_0528121; tripartite motif-containing 15 (TRIM15), transcript variant 1, aka ZNF178, ZNFB7, RNF93, ACCESSION NUMBER NM_0332291; tripartite motif-containing 15 (TRIM15), aka ZNF178, ZNFB7, RNF93, ACCESSION NUMBER NM_0332292; tripartite motif-containing 16 (TRIM16), aka EBBP, ACCESSION NUMBER NM_0064703; tripartite motif-containing 22 (TRIM22), aka STAF50, RNF94, GPSTAF50, ACCESSION NUMBER NM_0060743; tripartite motif-containing 25 (TRIM25), aka Z147, ZNF147, EFP, RNF147, ACCESSION NUMBER NM_0050824; tripartite motif-containing 28 (TRIM28), aka FLJ29029, TIF1B, RNF96, TF1B, KAP1, ACCESSION NUMBER NM_0057622; tripartite motif-containing 29 (TRIM29), aka FLJ36085, ATDC, ACCESSION NUMBER NM_0121013; tripartite motif-containing 29 (TRIM29), aka FLJ36085, ATDC, ACCESSION NUMBER NM_0121013; trichorhinophalangeal syndrome I (TRPS1), aka MGC134928, GC79, ACCESSION NUMBER NM_0141122; TSC22 domain family, member 1 (TSC22D1), transcript variant 2, aka TSC22, TGFB1I4, RP11-269C232, DKFZp686O19206, MGC17597, ACCESSION NUMBER NM_0060222; TSC22 domain family, member 1 (TSC22D1), transcript variant 1, aka TSC22, RP11-269C232, DKFZp686O19206, TGFB1I4, MGC17597, ACCESSION NUMBER NM_1834221; TSC22 domain family, member 1 (TSC22D1), transcript variant 1, aka TSC22, RP11-269C232, DKFZp686O19206, TGFB1I4, MGC17597, ACCESSION NUMBER NM_1834221; TSC22 domain family, member 2 (TSC22D2), aka KIAA0669, TILZ4a, TILZ4c, TILZ4b, ACCESSION NUMBER NM_0147792; TSC22 domain family, member 3 (TSC22D3), transcript variant 2, aka hDIP, DIP, DKFZp313A1123, DSIPI, TSC-22R, GILZ, ACCESSION NUMBER NM_0040893; TSC22 domain family, member 3 (TSC22D3), transcript variant 2, aka hDIP, DIP, DKFZp313A1123, DSIPI, TSC-22R, GILZ, ACCESSION NUMBER NM_0040893; TSC22 domain family, member 3 (TSC22D3), transcript variant 3, aka hDIP, DIP, DKFZp313A1123, DSIPI, TSC-22R, GILZ, ACCESSION NUMBER NM_0010158811; TSC22 domain family, member 3 (TSC22D3), transcript variant 1, aka hDIP, DIP, DKFZp313A1123, DSIPI, TSC-22R, GILZ, ACCESSION NUMBER NM_1980572; TSC22 domain family, member 3 (TSC22D3), transcript variant 1, aka hDIP, DIP, DKFZp313A1123, DSIPI, TSC-22R, GILZ, ACCESSION NUMBER NM_1980572; TSC22 domain family, member 4 (TSC22D4), aka THG-1, ACCESSION NUMBER NM_0309353; teashirt zinc finger homeobox 1 (TSHZ1), aka TSH1, SDCCAG33, NY-CO-33, ACCESSION NUMBER NM_0057864; teashirt zinc finger homeobox 2 (TSHZ2), aka C20orf17, OVC10-2, TSH2, ZNF218, FLJ33887, DKFZp686K2480, ZABC2, ACCESSION NUMBER NM_1734854; teashirt zinc finger homeobox 3 (TSHZ3), aka ZNF537, TSH3, KIAA1474, ACCESSION NUMBER NM_0208562; tubby like protein 4 (TULP4), transcript variant 2, aka TUSP, RP3-442A171, KIAA1397, ACCESSION NUMBER NM_0010074661; tubby like protein 4 (TULP4), transcript variant 1, aka TUSP, RP3-442A171, KIAA1397, ACCESSION NUMBER NM_0202453; tubby like protein 4 (TULP4), transcript variant 1, aka TUSP, RP3-442A171, KIAA1397, ACCESSION NUMBER NM_0202453; ubinuclein 1 (UBN1), transcript variant 2, aka VT4, VT, ACCESSION NUMBER NM_0010795141; ubinuclein 1 (UBN1), transcript variant 2, aka VT4, VT, ACCESSION NUMBER NM_0010795141; upstream binding protein 1 (LBP-1a) (UBP1), aka LBP-1B, LBP1A, LBP1B, LBP-la, DKFZp686L1745, ACCESSION NUMBER NM_0145173; ubiquitin-like with PHD and ring finger domains 1 (UHRF1), transcript variant 2, aka Np95, hNP95, MGC138707, ICBP90, RNF106, FLJ21925, ACCESSION NUMBER NM_0132823; UNC homeobox (UNCX), aka UNCX41, ACCESSION NUMBER NM_0010804611; upstream transcription factor 1 (USF1), transcript variant 2, aka HYPLIP1, FCHL1, MLTF, FCHL, UEF, MLTFI, ACCESSION NUMBER NM_2070051; upstream transcription factor 1 (USF1), transcript variant 1, aka HYPLIP1, FCHL1, MLTF, FCHL, UEF, MLTFI, ACCESSION NUMBER NM_0071223; upstream transcription factor 2, c-fos interacting (USF2), transcript variant 2, aka HP, ACCESSION NUMBER NM_2072911; upstream transcription factor 2, c-fos interacting (USF2), transcript variant 2, aka FIP, ACCESSION NUMBER NM_2072911; upstream transcription factor 2, c-fos interacting (USF2), transcript variant 1, aka HP, ACCESSION NUMBER NM_0033672; vav 1 guanine nucleotide exchange factor (VAV1), aka VAV, ACCESSION NUMBER NM_0054282; ventral anterior homeobox 1 (VAX1) aka MGC126745, MGC126743, ACCESSION NUMBER NM_1991311; ventral anterior homeobox 2 (VAX2) aka DRES93, ACCESSION NUMBER NM_0124761; vitamin D (1,25-dihydroxyvitamin D3) receptor (VDR), transcript variant 2 aka NR1I1, ACCESSION NUMBER NM_0010175351; vitamin D (1,25-dihydroxyvitamin D3) receptor (VDR), transcript variant 1 aka NR1I1, ACCESSION NUMBER NM_0003762; VENT homeobox homolog (Xenopus laevis) (VENTX) aka HPX42B, MGC119910, MGC119911, VENTX2, NA88A, ACCESSION NUMBER NM_0144682; vacuolar protein sorting 72 homolog (S aka cerevisiae) (VPS72) aka TCFL1, Swc2, YL1, CFL1, YL-1, ACCESSION NUMBER NM_0059971; visual system homeobox 1 (VSX1), transcript variant 1 aka RINX, PPD, KTCN, PPCD, ACCESSION NUMBER NM_0145884; visual system homeobox 1 (VSX1), transcript variant 1 aka RINX, PPD, KTCN, PPCD, ACCESSION NUMBER NM_0145884; visual system homeobox 1 (VSX1), transcript variant 2 aka RINX, PPD, KTCN, PPCD, ACCESSION NUMBER NM_1994251; Wilms tumor 1 (WT1), transcript variant A aka GUD, WT33, WAGR, WIT-2, ACCESSION NUMBER NM_0003783; Wilms tumor 1 (WT1), transcript variant D aka GUD, WT33, WAGR, WIT-2, ACCESSION NUMBER NM_0244263; X-box binding protein 1 (XBP1), transcript variant 1 aka TREB5, XBP2, ACCESSION NUMBER NM_0050802; X-box binding protein 1 (XBP1), transcript variant 2 aka TREB5, XBP2, ACCESSION NUMBER NM_0010795391; YEATS domain containing 4 (YEATS4) aka B230215M10Rik, GAS41, NUBI-1, YAF9, 4930573H17Rik, ACCESSION NUMBER NM_0065302; YY1 transcription factor (YY1) aka UCRBP, YIN-YANG-1, DELTA, NF-E1, ACCESSION NUMBER NM_0034033; zinc finger and BTB domain containing 17 (ZBTB17) aka ZNF60, pHZ-67, ZNF151, MIZ-1, ACCESSION NUMBER NM_0034431; zinc finger and BTB domain containing 25 (ZBTB25) aka KUP, ZNF46, ACCESSION NUMBER NM_0069772; zinc finger and BTB domain containing 38 (ZBTB38) aka FLJ31131, FLJ22332, FLJ35036, ACCESSION NUMBER NM_0010804121; zinc finger and BTB domain containing 48 (ZBTB48) aka pp9964, HKR3, ACCESSION NUMBER NM_0053411; zinc finger CCCH-type containing 8 (ZC3H8) aka Fliz1, ZC3HDC8, ACCESSION NUMBER NM_0324941; zinc finger E-box binding homeobox 1 (ZEB1) aka NIL-2A, ZFHEP, ZEB, BZP, NIL-2-A, AREB6, MGC133261, TCF8, ZFHX1A, ACCESSION NUMBER NM_0307513; zinc finger E-box binding homeobox 2 (ZEB2) aka KIAA0569, SMADIP1, ZFHX1B, SIP1, SIP-1, ACCESSION NUMBER NM_0147952; zinc finger homeobox 3 (ZFHX3) aka ATBF1, ZFHX3, ATBT, ACCESSION NUMBER NM_0068853; zinc finger homeobox 4 (ZFHX4) aka ZHF4, ZFH4, ZFH-4, FLJ20980, FLJ16514, ACCESSION NUMBER NM_0247213; zinc finger protein 36, C3H type-like 1 (ZFP36L1) aka TIS11B, Berg36, cMG1, ERF1, BRF1, RNF162B, ERF-1, ACCESSION NUMBER NM_0049262; zinc finger protein 36, C3H type-like 2 (ZFP36L2) aka ERF2, ERF-2, TIS11D, RNF162C, BRF2, ACCESSION NUMBER NM_0068873; zinc finger protein 37 homolog (mouse) (ZFP37) aka FLJ38524, ACCESSION NUMBER NM_0034081; zinc finger protein 42 homolog (mouse) (ZFP42) aka REX1, ZNF754, ACCESSION NUMBER NM_1749003; zinc finger protein 95 homolog (mouse) (ZFP95), transcript variant 1 aka MGC33710, KIAA1015, ACCESSION NUMBER NM_0145692; zinc finger, CCCH-type with G patch domain (ZGPAT), transcript variant 3, aka RP4-583P153, GPATC6, ZC3H9, ZC3HDC9, MGC44880, KIAA1847, GPATCH6, ACCESSION NUMBER NM_1814851; zinc finger, CCCH-type with G patch domain (ZGPAT), transcript variant 2 aka RP4-583P153, GPATC6, ZC3H9, ZC3HDC9, MGC44880, KIAA1847, GPATCH6, ACCESSION NUMBER NM_1814841; zinc finger, CCCH-type with G patch domain (ZGPAT), transcript variant 1 aka RP4-583P153, GPATC6, ZC3H9, ZC3HDC9, MGC44880, KIAA1847, GPATCH6, ACCESSION NUMBER NM_0325272; zinc finger, CCCH-type with G patch domain (ZGPAT), transcript variant 1 aka RP4-583P153, GPATC6, ZC3H9, ZC3HDC9, MGC44880, KIAA1847, GPATCH6, ACCESSION NUMBER NM_0325273; zinc fingers and homeoboxes 1 (ZHX1), transcript variant 2, ACCESSION NUMBER NM_0072223; zinc fingers and homeoboxes 1 (ZHX1), transcript variant 2, ACCESSION NUMBER NM_0072223; zinc fingers and homeoboxes 1 (ZHX1), transcript variant 1, ACCESSION NUMBER NM_0010179261; zinc fingers and homeoboxes 2 (ZHX2) aka KIAA0854, ACCESSION NUMBER NM_0149433; zinc fingers and homeoboxes 3 (ZHX3) aka KIAA0395, TIX1, ACCESSION NUMBER NM_0150353; Zic family member 1 (odd-paired homolog, Drosophila) (ZIC1) aka ZNF201, ZIC, ACCESSION NUMBER NM_0034123; Zic family member 3 heterotaxy 1 (odd-paired homolog, Drosophila) (ZIC3) aka HTX1, ZNF203, HTX, ACCESSION NUMBER NM_0034132; zinc finger with KRAB and SCAN domains 1 (ZKSCAN1) aka MGC138429, 9130423L19Rik, KOX18, ZNF139, PHZ-37, ZNF36, ACCESSION NUMBER NM_0034391; zinc finger with KRAB and SCAN domains 2 (ZKSCAN2) aka ZNF694, ZSCAN31, FLJ23199, ACCESSION NUMBER NM_0010129813; zinc finger with KRAB and SCAN domains 3 (ZKSCAN3) aka ZSCAN13, ZF47, dJ874C201, ZFP306, KIAA0426, Zfp47, ZNF309, FLJ33906, ZNF306, ACCESSION NUMBER NM_024491; zinc finger with KRAB and SCAN domains 4 (ZKSCAN4) aka FLJ32136, ZNF307, p373c61, P1P373C6, ACCESSION NUMBER NM_0191103; zinc finger with KRAB and SCAN domains 5 (ZKSCAN5), transcript variant 2 aka ZFP95, FLJ39233, MGC33710, KIAA1015, ACCESSION NUMBER NM_1451022; zinc finger with KRAB and SCAN domains 5 (ZKSCAN5), transcript variant 2 aka ZFP95, FLJ39233, MGC33710, KIAA1015, ACCESSION NUMBER NM_1451022; zinc finger protein 117 (ZNF117) aka HPF9, ACCESSION NUMBER NM_0244981; zinc finger protein 117 (ZNF117) aka H-plk, MGC22613, HPF9, ACCESSION NUMBER NM_0158523; zinc finger protein 131 (ZNF131) aka pHZ-10, ACCESSION NUMBER NM_0034321; zinc finger protein 132 (ZNF132) aka MGC126390, pHZ-12, MGC126391, ACCESSION NUMBER NM_0034332; zinc finger protein 133 (ZNF133) aka ZNF150, pHZ-13, pHZ-66, ACCESSION NUMBER NM_0034343; zinc finger protein 134 (ZNF134) aka MGC141970, pHZ-15, MGC138499, ACCESSION NUMBER NM_0034352; zinc finger protein 135 (ZNF135) aka ZNF61, pT3, pHZ-17, ZNF78L1, ACCESSION NUMBER NM_0034362; zinc finger protein 137 (ZNF137) aka pHZ-30, MGC119991, MGC119990, ACCESSION NUMBER NM_0034382; zinc finger protein 140 (ZNF140) aka pHZ-39, ACCESSION NUMBER NM_0034402; zinc finger protein 142 (ZNF142), transcript variant 2 aka pHZ-49, ACCESSION NUMBER NM_0050812; zinc finger protein 155 (ZNF155), transcript variant 1 aka MGC161655, pHZ-96, ACCESSION NUMBER NM_0034452; zinc finger protein 155 (ZNF155), transcript variant 1 aka MGC161655, pHZ-96, ACCESSION NUMBER NM_0034452; zinc finger protein 155 (ZNF155), transcript variant 2 aka MGC161655, pHZ-96, ACCESSION NUMBER NM_1980891; zinc finger protein 157 (ZNF157) aka HZF22, ACCESSION NUMBER NM_0034463; zinc finger protein 165 (ZNF165) aka ZSCAN7, LD65, ACCESSION NUMBER NM_0034472; zinc finger protein 167 (ZNF167), transcript variant 2 aka FLJ12738, ZNF64, ZFP, ZNF448, ZKSCAN7, ACCESSION NUMBER NM_0251691; zinc finger protein 167 (ZNF167), transcript variant 1 aka FLJ12738, ZNF64, ZFP, ZNF448, ZKSCAN7, ACCESSION NUMBER NM_0186512; zinc finger protein 167 (ZNF167), transcript variant 1 aka FLJ12738, ZNF64, ZFP, ZNF448, ZKSCAN7, ACCESSION NUMBER NM_0186512; zinc finger protein 169 (ZNF169) aka MGC51961, ACCESSION NUMBER NM_1943202; zinc finger protein 174 (ZNF174), transcript variant 2 aka ZSCAN8, ACCESSION NUMBER NM_0010322921; zinc finger protein 174 (ZNF174), transcript variant 2, aka ZSCAN8, ACCESSION NUMBER NM_0010322921; zinc finger protein 174 (ZNF174), transcript variant 1, aka ZSCAN8, ACCESSION NUMBER NM_0034501; zinc finger protein 175 (ZNF175), aka OTK18, ACCESSION NUMBER NM_0071472; zinc finger protein 18 (ZNF18), aka KOX11, ZKSCAN6, HDSG1, ZNF535, Zfp535, ACCESSION NUMBER NM_1446802; zinc finger protein 187 (ZNF187), transcript variant 1, aka ZSCAN26, MGC2815, SRE-ZBP, ACCESSION NUMBER NM_0071511; zinc finger protein 187 (ZNF187), transcript variant 1, aka ZSCAN26, MGC2815, SRE-ZBP, ACCESSION NUMBER NM_0071511; zinc finger protein 189 (ZNF189), transcript variant 2, ACCESSION NUMBER NM_1979771; zinc finger protein 189 (ZNF189), transcript variant 1, ACCESSION NUMBER NM_0034522; zinc finger protein 19 (ZNF19), aka KOX12, MGC51021, ACCESSION NUMBER NM_0069613; zinc finger protein 192 (ZNF192), aka LD5-1, ZKSCAN8, ACCESSION NUMBER NM_0062982; zinc finger protein 193 (ZNF193), aka ZSCAN9, PRD51, ACCESSION NUMBER NM_0062993; zinc finger protein 197 (ZNF197), transcript variant 2, aka ZNF20, D3S1363E, VHLaK, P18, ZKSCAN9, ZNF166, ACCESSION NUMBER NM_0010248551; zinc finger protein 197 (ZNF197), transcript variant 1, aka ZNF20, D3S1363E, VHLaK, P18, ZKSCAN9, ZNF166, ACCESSION NUMBER NM_0069913; zinc finger protein 197 (ZNF197), transcript variant 1, aka ZNF20, D3S1363E, VHLaK, P18, ZKSCAN9, ZNF166, ACCESSION NUMBER NM_0069913; zinc finger protein 202 (ZNF202), aka ZKSCAN10, ACCESSION NUMBER NM_0034552; zinc finger protein 207 (ZNF207), transcript variant 2, aka DKFZp761N202, ACCESSION NUMBER NM_0010322932; zinc finger protein 207 (ZNF207), transcript variant 2, aka DKFZp761N202, ACCESSION NUMBER NM_0010322932; zinc finger protein 211 (ZNF211), transcript variant 1, aka C2H2-25, ZNF-25, ZNFC25, MGC131841, CH2H2-25, ACCESSION NUMBER NM_0063852; zinc finger protein 213 (ZNF213), aka ZKSCAN21, CR53, ACCESSION NUMBER NM_0042201; zinc finger protein 215 (ZNF215), aka BAZ2, ACCESSION NUMBER NM_0132501; zinc finger protein 217 (ZNF217), aka ZABC1, ACCESSION NUMBER NM_0065262; zinc finger protein 219 (ZNF219), aka ZFP219, ACCESSION NUMBER NM_0164231; zinc finger protein 232 (ZNF232), aka ZSCAN11, ACCESSION NUMBER NM_0145192; zinc finger protein 236 (ZNF236), aka ZNF236B, ZNF236A, ACCESSION NUMBER NM_0073451; zinc finger protein 238 (ZNF238), transcript variant 1, aka RP58, ZBTB18, TAZ-1, C2H2-171, ACCESSION NUMBER NM_2057681; zinc finger protein 238 (ZNF238), transcript variant 1, aka RP58, ZBTB18, TAZ-1, C2H2-171, ACCESSION NUMBER NM_2057681; zinc finger protein 238 (ZNF238), transcript variant 2, aka RP58, ZBTB18, TAZ-1, C2H2-171, ACCESSION NUMBER NM_0063523; zinc finger protein 24 (ZNF24), aka KOX17, ZSCAN3, RSG-A, ZNF191, Zfp191, ACCESSION NUMBER NM_0069651; zinc finger protein 256 (ZNF256), aka BMZF-3, BMZF3, ACCESSION NUMBER NM_0057732; zinc finger protein 263 (ZNF263), aka ZKSCAN12, FPM315, ACCESSION NUMBER NM_0057413; zinc finger protein 268 (ZNF268), aka HZF3, MGC126498, ACCESSION NUMBER NM_0034151; zinc finger protein 268 (ZNF268), aka HZF3, MGC126498, ACCESSION NUMBER NM_0034151; zinc finger protein 274 (ZNF274), transcript variant ZNF274c, aka ZKSCAN19, DKFZp686K08243, FLJ37843, HFB101, ZF2, ACCESSION NUMBER NM_1335021; zinc finger protein 274 (ZNF274), transcript variant ZNF274b, aka ZKSCAN19, DKFZp686K08243, FLJ37843, HFB101, ZF2, ACCESSION NUMBER NM_0163242; zinc finger protein 274 (ZNF274), transcript variant ZNF274b, aka ZKSCAN19, DKFZp686K08243, FLJ37843, HFB101, ZF2, ACCESSION NUMBER NM_0163242; zinc finger protein 277 (ZNF277), aka ZNF277P, ZNF277, NRIF4, ACCESSION NUMBER NM_0219942; zinc finger protein 287 (ZNF287), aka MGC126536, ZKSCAN13, MGC141923 ACCESSION NUMBER NM_0206531; zinc finger protein 3 (ZNF3), transcript variant 2, aka HF12, KOX25, PP838, Zfp113, FLJ20216, A8-51, ACCESSION NUMBER NM_0329243; zinc finger protein 3 (ZNF3), transcript variant 2, aka HF12, KOX25, PP838, Zfp113, FLJ20216, A8-51, ACCESSION NUMBER NM_0329243; zinc finger protein 3 (ZNF3), transcript variant 1, aka HF12, KOX25, PP838, Zfp113, FLJ20216, A8-51, ACCESSION NUMBER NM_0177152; zinc finger protein 3 (ZNF3), transcript variant 1, aka HF aka12, KOX25, PP838, Zfp113, FLJ20216, A8-51, ACCESSION NUMBER NM_0177152; zinc finger protein 323 (ZNF323), transcript variant 1, aka ZNF20-Lp, dJ874C202, ZNF310P, FLJ23407, ACCESSION NUMBER NM_0308992; zinc finger protein 323 (ZNF323), transcript variant 2, aka ZNF20-Lp, dJ874C202, ZNF310P, FLJ23407, ACCESSION NUMBER NM_1459092; zinc finger protein 33A (ZNF33A), transcript variant 2, aka ZNF11A, KOX5, FLJ23404, KIAA0065, KOX2, NF11A, ZNF11, ZZAPK, ZNF33, KOX31, ACCESSION NUMBER NM_0069742; zinc finger protein 33A (ZNF33A), transcript variant 2, aka ZNF11A, KOX5, FLJ23404, KIAA0065, KOX2, NF11A, ZNF11, ZZAPK, ZNF33, KOX31, ACCESSION NUMBER NM_0069742; zinc finger protein 33B (ZNF33B), aka FLJ23327, MGC129696, KOX2, ZNF11B, KOX31, ACCESSION NUMBER NM_0069551; zinc finger protein 35 (ZNF35), aka Zfp105, HF aka10, HF10, ACCESSION NUMBER NM_0034203; zinc finger protein 367 (ZNF367), aka ZFF29, CDC14B, FLJ33970, ACCESSION NUMBER NM_1536952; zinc finger protein 37A (ZNF37A), transcript variant 1, aka KOX21, FLJ3472, ZNF37, ACCESSION NUMBER NM_0010070941; zinc finger protein 37A (ZNF37A), transcript variant 2, aka KOX21, FLJ3472, ZNF37, ACCESSION NUMBER NM_0034211; zinc finger protein 37A (ZNF37A), transcript variant 2, aka KOX21, FLJ3472, ZNF37, ACCESSION NUMBER NM_0034211; zinc finger protein 394 (ZNF394), aka FLJ12298, ZKSCAN14, ACCESSION NUMBER NM_0321642; zinc finger protein 396 (ZNF396), aka FLJ31213, ZSCAN14, ACCESSION NUMBER NM_1457561; zinc finger protein 397 (ZNF397), transcript variant 2, aka ZNF47, ZSCAN15, MGC13250, ACCESSION NUMBER NM_0323471; zinc finger protein 41 (ZNF41), transcript variant 2, aka MRX89, MGC8941, ACCESSION NUMBER NM_1533801; zinc finger protein 41 (ZNF41), transcript variant 1, aka MRX89; MGC8941, ACCESSION NUMBER NM_0071301; zinc finger protein 41 (ZNF41), transcript variant 1, aka MRX89, MGC8941, ACCESSION NUMBER NM_0071301; zinc finger protein 434 (ZNF434), aka FLJ20417, FLJ31901, MGC4179, ACCESSION NUMBER NM_0178102; zinc finger protein 444 (ZNF444), aka FLJ11137, EZF-2, EZF2, ZSCAN17, ACCESSION NUMBER NM_0183372; zinc finger protein 445 (ZNF445), aka ZNF168, MGC126535, ZKSCAN15, ACCESSION NUMBER NM_1814895; zinc finger protein 446 (ZNF446), aka ZKSCAN20, FLJ20626, ZSCAN30, ACCESSION NUMBER NM_0179082; zinc finger protein 449 (ZNF449), aka FLJ23614, ZSCAN19, ACCESSION NUMBER NM_1526954; zinc finger protein 45 (ZNF45), aka KOX5, ZNF13, ACCESSION NUMBER NM_0034252; zinc finger protein 483 (ZNF483), transcript variant 1, aka ZKSCAN16, ACCESSION NUMBER NM_1334641; zinc finger protein 483 (ZNF483), transcript variant 2, aka ZKSCAN16, ACCESSION NUMBER NM_0010071691; zinc finger protein 483 (ZNF483), transcript variant 2, aka ZKSCAN16, ACCESSION NUMBER NM_0010071691; zinc finger protein 496 (ZNF496), aka ZKSCAN17, MGC15548, NIZP1, ACCESSION NUMBER NM_0327521; zinc finger protein 498 (ZNF498), aka ZSCAN25, ACCESSION NUMBER NM_1451152; zinc finger protein 500 (ZNF500), aka ZKSCAN18, ACCESSION NUMBER NM_0216461; zinc finger protein 69 (ZNF69), aka MGC59928, Cos5, ACCESSION NUMBER NM_0219151; zinc finger protein 70 (ZNF70), aka Cos17, MGC48959, ACCESSION NUMBER NM_0219162; zinc finger protein 71 (ZNF71), aka EZFIT, ACCESSION NUMBER NM_0212163; zinc finger protein 80 (ZNF80), aka pT17, ACCESSION NUMBER NM_0071362; zinc finger protein 81 (ZNF81), aka FLJ44367, HFZ20, MRX45, ACCESSION NUMBER NM_0071372; zinc finger protein 83 (ZNF83), aka MGC33853, FLJ90585, HPF1, FLJ11015, ZNF816B, FLJ14876, ACCESSION NUMBER NM_0183002; zinc finger protein 85 (ZNF85), aka HTF1, MGC78566, HPF4, ACCESSION NUMBER NM_0034292; zinc finger protein 91 (ZNF91), aka HTF10, HPF7, ACCESSION NUMBER NM_0034302; zinc finger protein 92 (ZNF92), transcript variant 1, aka HPF12, HTF12, TF12, ACCESSION NUMBER NM_0071392; zinc finger protein 92 (ZNF92), transcript variant 2, aka HPF12, TF12, ACCESSION NUMBER NM_1526262; zinc finger protein 93 (ZNF93), aka ZNF505, HTF34, HPF34, TF34, ACCESSION NUMBER NM_0312182; zinc finger protein 93 (ZNF93), aka ZNF505, HTF34, HPF34, TF34, ACCESSION NUMBER NM_0312182; zinc finger, NFX1-type containing 1 (ZNFX1), aka MGC131926, FLJ39275, ACCESSION NUMBER NM_0210352; zinc finger, RAN-binding domain containing 2 (ZRANB2), transcript variant 2, aka DKFZp686J1831, ZIS1, FLJ41119, ZIS, DKFZp686N09117, ZNF265, ZIS2, ACCESSION NUMBER NM_0054553; zinc finger, RAN-binding domain containing 2 (ZRANB2), transcript variant 2, aka DKFZp686J1831, ZIS1, FLJ41119, ZIS, DKFZp686N09117, ZNF265, ZIS2, ACCESSION NUMBER NM_0054553; zinc finger and SCAN domain containing 1 (ZSCAN1), aka MGC104472, MZF-1, FLJ33779, ACCESSION NUMBER NM_1825723; zinc finger and SCAN domain containing 10 (ZSCAN10), aka ZNF206, FLJ14549, ACCESSION NUMBER NM_0328051; zinc finger and SCAN domain containing 12 (ZSCAN12), aka ZNF305, ZNF29K1, KIAA0426, dJ29K12, ZNF96, ZFP96, ACCESSION NUMBER NM_0010396431; zinc finger and SCAN domain containing 16 (ZSCAN16), aka ZNF392, ZNF435, FLJ22191, dJ265C243, ACCESSION NUMBER NM_0252311; zinc finger and SCAN domain containing 18 (ZSCAN18), aka ZNF447, DKFZp586B1122, FLJ44152, MGC2427, MGC8682, MGC4074, FLJ12895, ACCESSION NUMBER NM_0239263; zinc finger and SCAN domain containing 2 (ZSCAN2), transcript variant 2, aka FLJ20595, ZFP29, ACCESSION NUMBER NM_0178944; zinc finger and SCAN domain containing 2 (ZSCAN2), transcript variant 3, aka FLJ20595, ZFP29, ACCESSION NUMBER NM_0010070721; zinc finger and SCAN domain containing 2 (ZSCAN2), transcript variant 3, aka FLJ20595, ZFP29, ACCESSION NUMBER NM_0010070721; zinc finger and SCAN domain containing 2 (ZSCAN2), transcript variant 1, aka FLJ20595, ZFP2, ACCESSION NUMBER NM_1818773; zinc finger and SCAN domain containing 20 (ZSCAN20), aka ZFP-31, ZNF31, KOX29, ZNF360, ACCESSION NUMBER NM_1452383; zinc finger and SCAN domain containing 22 (ZSCAN22), aka ZNF50, MGC126679, MGC138482, HKR2, ACCESSION NUMBER NM_1818461; zinc finger and SCAN domain containing 29 (ZSCAN29), aka MGC129895, MGC129894, FLJ35867, Zfp690, ZNF690, ACCESSION NUMBER NM_1524553; zinc finger and SCAN domain containing 4 (ZSCAN4), aka FLJ35105, ZNF494, MGC126789, MGC126787, ACCESSION NUMBER NM_1526771; zinc finger, X-linked, duplicated A (ZXDA), ACCESSION NUMBER NM_0071563; zinc finger, X-linked, duplicated A (ZXDA), ACCESSION NUMBER NM_0071563; ZXD family zinc finger C (ZXDC), aka FLJ13861, DKFZp547N024, ZXDL, MGC11349, ACCESSION NUMBER NM_0251123; ZXD family zinc finger C (ZXDC), transcript variant 2, aka DKFZp547N024, FLJ13861, ZXDL, MGC11349, ACCESSION NUMBER NM_0010406531. Additional genes with DNA binding domains that are useful in modifying the gene expression profiles of the cells of the present invention include: ADAMTS17, ADAMTS19, ADAR, AEBP2, AFF3, AHCTF1, AHDC1, AKAP8, AKAP8L, AKNA, ALX1, ANAPC2, ANKZF1, APTX, ARID2, ARID5B, ASCL3, ASCL4, ASH1L, ATMIN, ATOH7, ATOH8, ATXN7, BAZ2A, BAZ2B, BBX, BCL11A, BCL11B, BCL6B, BCLAF1, BDP1, BHLHB4, BHLHB5, BHLHB8, BMP2, BNC2, BOLA1, BOLA3, BPNT1, BRD9, BRPF1, BSX, C10orf140, C12orf28, C14orf106, C14orf43, C17orf49, Clorf25, C20orf194, CAMTA1, CAMTA2, CARHSP1, CASP8AP2, CASZ1, CBLL1, CBX2, CCDC71, CCDC79, CD36, CDC5L, CEBPZ, CENPB, CENPT, CHD1, CHD2, CHD6, CHD7, CHD9, CHRAC1, CIC, CIZ1, COPS2, COPS3, COPS4, CPSF4, CPSF4L, CPXCR1, CRAMP1L, CSDC2, CSDE1, CTCFL, CUL1, CUL2, CUL3, CUL4A, CUL4B, CUL5, CXXC1, DACH2, DEAF1, DEK, DEPDC1, DEPDC1B, DEPDC2, DEPDC4, DEPDC5, DEPDC6, DEPDC7, DHX34, DHX57, DMAP1, DMC1, DMRTA2, DNAJC1, DNAJC2, DNAJC21, DOT1L, DPF1, DPF2, DPF3, DR1, DSP, DUS3L, DUSP12, DVL1, DVL2, DVL3, DZIP1, DZIP1L, EBF1, EBF3, EBF4, EEA1, EIF3K, EMX2, EP400, ETV7, EWSR1, EXOC2, EZH1, EZH2, FAM170A, FAM171B, FAM44A, FARSA, FARSB, FBN1, FBXO41, FERD3L, FEZF1, FEZF2, FGD1, FIGLA, FIZ1, FOXD4L5, FOXD4L6, FOXO6, GABPB1, GBX1, GCM2, GFI1, GFI1B, GLIS1, GLIS2, GMEB2, GON4L, GPATCH8, GPR123, GPR155, GRHL1, GRHL2, GRHL3, GRLF1, GRM6, GTF2E2, GTF2F1, GTF2F2, GTF2IRD2, GTF2IRD2B, GTF3A, GZF1, H1F0, H1FOO, H1FX, HBP1, HELZ, HES1, HES2, HES3, HES4, HES5, HES7, HIC2, HILS1, HIST1H1A, HIST1H1B, HIST1H1C, HIST1H1D, HIST1H1E, HIST1H1T, HIVEP1, HIVEP2, HIVEP3, HKR1, HLA-DQB1, HLA-DQB2, HLA-DRB3, HMG1L1, HMG2L1, HMGA2, HMGB1, HMGB3, HMGB4, HMX3, HNF1A, HNF1B, HP1BP3, ID1, ID2, ID3, ID4, IFI16, IGHM, IKZF2, IKZF5, INF2, INSM1, INSM2, ISL1, JAZF1, JRKL, KAT5, KCMF1, KIAA0415, KIAA1549, KIAA1618, KIAA1683, KIAA2018, KIN, KLF13, KLF14, KLF8, KRTAP5-9, LARP1, LARP2, LARP4, LARP5, LARP6, LARP7, LBXCOR1, LCORL, LENG9, LEUTX, LGR4, LIN28, LIN28B, LYL1, MACF1, MAEL, MATR3, MAZ, MBD2, MBD3, MBD4, MBNL1, MBNL2, MBNL3, MECP2, MEIS1, MESP2, MET, MGMT, MIER1, MIER2, MIER3, MINK1, MIZF, MKRN1, MKRN2, MKRN3, MLL2, MLL3, MLLT1, MLLT3, MLXIP, MLXIPL, MNX1, MRPL28, MRRF, MSGN1, MST1R, MXD3, MXD4, MXI1, MYB, MYBL1, MYCL2, MYSM1, MYST1, MYST3, MYST4, NCOA1, NCOA2, NCOA3, NCOR1, NCOR2, NEUROD1, NEUROD4, NEUROD6, NEUROG2, NEUROG3, NFRKB, NHLH1, NHLH2, NKRF, NKX2-4, NKX2-6, NKX3-2, NKX6-3, NOC3L, NOC4L, NOTO, NPAS3, NPAS4, NUFIP1, NUPL2, OLIG1, OLIG3, OSR1, OSR2, OTOP3, OVOL2, PARP12, PATZ1, PAWR, PAX1, PAX2, PAX9, PBRM1, PCSK6, PDS5B, PDX1, PHB2, PHF20, PHF21A, PIP5K3, PKHD1, PKHD1L1, PLAGL1, PLEK, PLEK2, PLEKHA4, PLXNA1, PLXNA2, PLXNA3, PLXNA4, PLXNB1, PLXNB2, PLXNB3, PLXNC1, PLXND1, PMS1, POGK, POGZ, POLE3, POLE4, POLR2L, PPP1R10, PPP1R13L, PPP2R3B, PRB3, PRB4, PRDM10, PRDM12, PRDM13, PRDM14, PRDM15, PRDM4, PRDM5, PRDM6, PRDM7, PRDM8, PRDM9, PREB, PRKRIR, PRMT3, PROX2, PRR12, PRR3, PSMD11, PSMD12, PTCHD2, PTF1A, RAD51, RAG1, RAPGEF3, RAPGEF4, RAPGEF5, RAX2, RBAK, RBM10, RBM20, RBM22, RBM26, RBM27, RBM5, RBM6, RC3H1, RC3H2, RCOR1, RCOR3, RELL2, REPIN1, REST, RFX2, RFX4, RFX6, RFX7, RGS11, RGS6, RGS7, RGS9, RHOXF2, RHOXF2B, RIOK2, RNASE2, RNF113A, RNF113B, RNF114, RNF125, RNF138, RNF166, RPA2, RPA4, RREB1, SALL3, SALL4, SCAPER, SCML4, SCRT2, SEMA4A, SETBP1, SETDB1, SETDB2, SF3A2, SF3A3, SHPRH, SKI, SKIL, SLC22A4, SLC26A10, SLC39A10, SLC4A10, SMARCA1, SMARCA5, SMARCC1, SMARCC2, SMARCE1, SNAIL SNAI2, SNAPC4, SOHLH1, SOHLH2, SORBS2, SOX12, SOX17, SOX3, SOX30, SP100, SP110, SP2, SP3, SP5, SP6, SP7, SP8, SRCAP, SREBF2, SSB, SSH1, SSH2, SSH3, SSRP1, SUZ12, TAL2, TAX1BP1, TCEAL8, TCF12, TCF20, TCF23, TCF24, TCF4, TCF7, TERF1, TERF2, TERF2IP, TGIF2LX, TGIF2LY, THAP1, THAP10, THAP11, THAP2, THAP3, THAP4, THAP5, THAP6, THAP7, THAP8, THAP9, TIGD2, TIGD3, TIGD4, TIGD5, TIGD6, TIGD7, TIPARP, TOE1, TOX, TOX2, TOX3, TOX4, TP53, TP63, TRAFD1, TRIM23, TRIM3, TRIM32, TRIT1, TRMT1, TTF1, TUB, TUT1, TWIST1, U2AF1, U2AF1L4, UBE2K, UBR4, UBTF, UNK, UNKL, USP39, VEZF1, VSX2, WDHD1, WHSC1, WIZ, WNT8B, XPA, YBX1, YBX2, YEATS2, YOD1, YY2, ZBED1, ZBED2, ZBED3, ZBED4, ZBP1, ZBTB1, ZBTB10, ZBTB11, ZBTB12, ZBTB16, ZBTB2, ZBTB20, ZBTB22, ZBTB24, ZBTB26, ZBTB3, ZBTB32, ZBTB33, ZBTB34, ZBTB37, ZBTB39, ZBTB4, ZBTB40, ZBTB41, ZBTB43, ZBTB44, ZBTB45, ZBTB46, ZBTB47, ZBTB5, ZBTB6, ZBTB7A, ZBTB7B, ZBTB7C, ZBTB9, ZC3H10, ZC3H11A, ZC3H13, ZC3H14, ZC3H15, ZC3H18, ZC3H3, ZC3H4, ZC3H6, ZC3H7A, ZC3H7B, ZC3HAV1, ZCCHC11, ZCCHC6, ZDHHC11, ZDHHC19, ZFAT, ZFHX2, ZFP1, ZFP106, ZFP112, ZFP14, ZFP161, ZFP2, ZFP28, ZFP3, ZFP30, ZFP36, ZFP41, ZFP57, ZFP62, ZFP64, ZFP82, ZFP90, ZFP91, ZFP92, ZFPM1, ZFPM2, ZFR, ZFR2, ZFX, ZFY, ZFYVE20, ZFYVE26, ZIC2, ZIC4, ZIC5, ZIK1, ZIM2, ZIM3, ZMAT1, ZMAT2, ZMAT3, ZMAT4, ZMAT5, ZNF10, ZNF100, ZNF101, ZNF107, ZNF114, ZNF12, ZNF121, ZNF124, ZNF136, ZNF138, ZNF14, ZNF141, ZNF143, ZNF146, ZNF148, ZNF154, ZNF16, ZNF160, ZNF17, ZNF177, ZNF180, ZNF181, ZNF182, ZNF184, ZNF195, ZNF2, ZNF20, ZNF200, ZNF205, ZNF208, ZNF212, ZNF214, ZNF22, ZNF221, ZNF222, ZNF223, ZNF224, ZNF225, ZNF226, ZNF227, ZNF229, ZNF23, ZNF230, ZNF233, ZNF234, ZNF235, ZNF239, ZNF248, ZNF25, ZNF250, ZNF251, ZNF252, ZNF253, ZNF254, ZNF257, ZNF26, ZNF260, ZNF264, ZNF266, ZNF267, ZNF271, ZNF273, ZNF275, ZNF276, ZNF28, ZNF280A, ZNF280B, ZNF280C, ZNF280D, ZNF281, ZNF282, ZNF283, ZNF284, ZNF285A, ZNF286A, ZNF292, ZNF295, ZNF296, ZNF30, ZNF300, ZNF302, ZNF304, ZNF311, ZNF316, ZNF317, ZNF318, ZNF319, ZNF32, ZNF320, ZNF321, ZNF322A, ZNF322B, ZNF324, ZNF326, ZNF329, ZNF331, ZNF333, ZNF334, ZNF335, ZNF337, ZNF34, ZNF341, ZNF343, ZNF345, ZNF346, ZNF347, ZNF350, ZNF354A, ZNF354B, ZNF354C, ZNF358, ZNF362, ZNF365, ZNF366, ZNF382, ZNF383, ZNF384, ZNF385A, ZNF385B, ZNF385C, ZNF385D, ZNF391, ZNF395, ZNF398, ZNF404, ZNF407, ZNF408, ZNF409, ZNF410, ZNF414, ZNF415, ZNF416, ZNF417, ZNF418, ZNF419, ZNF420, ZNF423, ZNF425, ZNF426, ZNF428, ZNF429, ZNF43, ZNF430, ZNF431, ZNF432, ZNF433, ZNF436, ZNF438, ZNF439, ZNF44, ZNF440, ZNF441, ZNF442, ZNF443, ZNF451, ZNF454, ZNF460, ZNF461, ZNF462, ZNF467, ZNF468, ZNF470, ZNF471, ZNF473, ZNF474, ZNF479, ZNF48, ZNF480, ZNF484, ZNF485, ZNF486, ZNF487, ZNF488, ZNF490, ZNF491, ZNF493, ZNF497, ZNF501, ZNF502, ZNF503, ZNF506, ZNF507, ZNF509, ZNF510, ZNF511, ZNF512, ZNF512B, ZNF513, ZNF514, ZNF516, ZNF517, ZNF518A, ZNF518B, ZNF519, ZNF521, ZNF524, ZNF526, ZNF527, ZNF528, ZNF529, ZNF530, ZNF532, ZNF536, ZNF540, ZNF541, ZNF542, ZNF543, ZNF544, ZNF546, ZNF547, ZNF548, ZNF549, ZNF550, ZNF551, ZNF552, ZNF554, ZNF555, ZNF556, ZNF557, ZNF558, ZNF559, ZNF56, ZNF560, ZNF561, ZNF562, ZNF563, ZNF564, ZNF565, ZNF566, ZNF567, ZNF568, ZNF569, ZNF57, ZNF570, ZNF571, ZNF572, ZNF573, ZNF574, ZNF575, ZNF576, ZNF577, ZNF578, ZNF579, ZNF580, ZNF581, ZNF582, ZNF583, ZNF584, ZNF585A, ZNF585B, ZNF586, ZNF587, ZNF589, ZNF592, ZNF593, ZNF594, ZNF595, ZNF596, ZNF597, ZNF598, ZNF599, ZNF600, ZNF605, ZNF606, ZNF607, ZNF608, ZNF609, ZNF610, ZNF611, ZNF613, ZNF615, ZNF616, ZNF618, ZNF619, ZNF620, ZNF621, ZNF622, ZNF623, ZNF624, ZNF625, ZNF626, ZNF627, ZNF628, ZNF629, ZNF638, ZNF639, ZNF641, ZNF642, ZNF643, ZNF644, ZNF645, ZNF646, ZNF648, ZNF649, ZNF652, ZNF653, ZNF654, ZNF655, ZNF658, ZNF660, ZNF662, ZNF663, ZNF664, ZNF665, ZNF667, ZNF668, ZNF669, ZNF670, ZNF671, ZNF672, ZNF674, ZNF675, ZNF676, ZNF677, ZNF678, ZNF679, ZNF680, ZNF681, ZNF682, ZNF683, ZNF684, ZNF687, ZNF688, ZNF689, ZNF691, ZNF692, ZNF695, ZNF696, ZNF697, ZNF699, ZNF7, ZNF700, ZNF701, ZNF703, ZNF704, ZNF705A, ZNF705D, ZNF705F, ZNF706, ZNF707, ZNF708, ZNF709, ZNF710, ZNF711, ZNF713, ZNF714, ZNF716, ZNF717, ZNF718, ZNF720, ZNF721, ZNF725, ZNF733, ZNF734, ZNF738, ZNF74, ZNF740, ZNF746, ZNF747, ZNF749, ZNF750, ZNF75A, ZNF75D, ZNF76, ZNF761, ZNF763, ZNF764, ZNF765, ZNF766, ZNF768, ZNF77, ZNF770, ZNF771, ZNF772, ZNF773, ZNF774, ZNF775, ZNF776, ZNF777, ZNF778, ZNF780A, ZNF780B, ZNF781, ZNF782, ZNF783, ZNF784, ZNF786, ZNF787, ZNF788, ZNF789, ZNF79, ZNF790, ZNF791, ZNF792, ZNF793, ZNF799, ZNF8, ZNF800, ZNF804A, ZNF804B, ZNF805, ZNF808, ZNF821, ZNF823, ZNF826, ZNF827, ZNF828, ZNF829, ZNF830, ZNF831, ZNF833, ZNF834, ZNF835, ZNF836, ZNF837, ZNF839, ZNF84, ZNF841, ZNF843, ZNF845, ZNF846, ZNF90, ZNF98, ZNF99, ZRSR1, ZRSR2, ZSCAN21, ZSCAN23, ZSCAN5A, ZSCAN5B, ZSCAN5C, ZUFSP, ZXDB, and ZZZ3. All of these genes capable of modulating differentiated gene expression in a trans manner can include their splice variants and their analogs in other animal species many of which are readily found in the scientific literature or in online databases such as http://www.ihop-net.org/UniPub/iHOP/. Chromatin-modifying molecules include but are not limited to: K-demethylases including: KDM1, KDM2, KDM2A, KDM2B, KDM3A, KDM3B, KDM4, KDM4A, KDM4B, KDM4C, KDM4D, KDM5, KDM5A, KDM5B, KDM5C, KDM5D, KDM6A, and KDM6B; K-acetlytransferases including: KAT1, KAT2, KAT2A, KAT2B, KAT3, KAT3A, KAT3B, Kat4, KAT5, KATE, KAT6A, KAT6B, KAT7, KAT8, KAT9, KAT10, KAT11, KAT12, KAT13A, KAT13B, KAT13C, and KAT13D; K-methyltransferases including: KMT1, KMT1A, KMT1B, KMT1C, KMT1D, KMT1E, KMT1F, KMT2, KMT2A, KMT2B, KMT2C, KMT2D, KMT2E, KMT2F, KMT2G, KMT2H, KMT3, KMT3A, KMT3B, KMT3C, KMT4, KMT5, KMT5A, KMT5B, KMT5C, KMT6, KMT7, and KMT8; members of the histone deacetylase (HDAC) family including: HDAC1, HDAC2, HDAC3, HDAC4, HDAC5, HDAC6, HDAC7, HDAC8, HDAC9, HDAC10, and HDAC11; members of the protein arginine methyltransferase (PRMT) family including: PRMT1, PRMT2, PRMT3, PRMT5, PRMT6, PRMT7, and PRMT8.

III. Driving Cell Proliferation

In addition to the expression of transrciption factors (as described above), clonal or oligoclonal cells isolated according to the present invention may further be modified to artificially inhibit cell cycle inhibitory factors or to otherwise stimulate the cells to replicate. Any convenient modification for inducing cell replication may be employed, including those described in U.S. patent application Ser. No. 12/504,630, filed on Jul. 16, 2009 (US Patent Pub. No. 2010/0184033) entitled “Methods to accelerate the isolation of novel cell strains from pluripotent stem cells and cells obtained thereby” (incorporated herein by reference in its entirety). The artificial stimulation of the cell cycle may be made reversible through any convenient means, many of which are known in the art, including but not limited to, the use of inducible promoters, temperature sensitive promoters, RNAi, transient delivery of transcript as described in Transient Expression Vector Methods below, or the delivery of proteins into the cells (e.g., cell permeable proteins/peptides, e.g., as described in U.S. Pat. No. 7,928,186 entitiled “Cell permeable bioactive peptide conjugates”, incorporated herein by reference in its entirety), or by other means known in the art whereby factors are modulated that lead to an increase in cell proliferation, more preferably, in a bypass of cell cycle checkpoints. In certain embodiments, the means of overcoming cell cycle inhibition is specific to cell cycle control with relatively little effect on the differentiated state of the cell. By way of nonlimiting example, the retinoblastoma and p53 pathways may be inhibited, such as by the use of SV40 T-antigen, the adenovirus proteins E1A and E1B, or the papillomavirus proteins E6 and E7 or the cell cycle can be induced by other means such as by the up-regulation of CDK4 as is known in the art to override p16 cell cycle checkpoint. In certain embodiments, protein agents may be modified with protein transduction domains as described herein. By way of nonlimiting example, pluripotent stem cells such as ES, EG, EC, iPS or ED cells, including pluripotent stem cells not derived from a human embryo, are modified to transiently express CDK4 to facilitate expansion, that is to say proliferation of the cells before, during, or after the cells have been similarly modified to alter transcriptional regulators as described herein. Vectors used to introduce such agents to increase the proliferation rate of the cells can be in various forms known in the art and as described herein under the heading “Means of altering the expression of transcriptional regulators or cell cycle drivers” below.

IV. Means of Altering the Expression of Transcriptional Regulators or Cell Cycle Drivers:

Coding sequences for transcriptional regulators or cell cycle drivers may be transfected via a construct that leads to an inducible transcriptional regulator as described herein or cell cycle driver including but not limited to SV40 T-antigen or CDK4. Said vector may be designed to allow regulated expression such as a temperature or tetracycline in a tet-on or tet-off system as is known in the art. As a result, cells can be allowed to differentiate into an initial heterogeneity of cell types and then clonally or oligoclonally expanded under conditions wherein the transcriptional regulator and/or SV40 T-antigen or CDK4 genes are induced to stimulate the proliferation of the cells. When sufficient numbers of cells are obtained, the expression of the transcriptional regulator or SV40 T-antigen or CDK4 may be downregulated by reversing the steps that led to the activation of the gene, or by the physical removal of the gene or genes using recombinase technology as is well known in the art, such as through the use of the CRE recombinase system or the use of FLP recombinase.

In certain embodiments, the transcriptional regulator or SV40 T-antigen or CDK4 may be added during the first differentiation step or at the beginning of the clonal or oligoclonal expansion/propagation step. In certain embodiments, the import of the transcriptional regulator or SV40 T-antigen or CDK4 may be improved by delivery with liposomes, electroporation, or by permeabilization (see U.S. Patent Application No. 2005/0014258, incorporated by reference herein). For example, cells may be permeabilized using any standard procedure, such as permeabilization with digitonin or Streptolysin O. Briefly, cells are harvested using standard procedures and washed with PBS. For digitonin permeabilization, cells are resuspended in culture medium containing digitonin at a concentration of approximately 0.001-0.1% and incubated on ice for 10 minutes. For permeabilization with Streptolysin O, cells are incubated in Streptolysin O solution (see, for example, Maghazachi et al., FASEB J. 1997 August; 11(10):765-74) for 15-30 minutes at room temperature. After either incubation, the cells are washed by centrifugation at 400×g for 10 minutes. This washing step is repeated twice by resuspension and sedimentation in PBS. Cells are kept in PBS at room temperature until use. Alternatively, the cells can be permeabilized while placed on coverslips to minimize the handling of the cells and to eliminate the centrifugation of the cells, thereby maximizing the viability of the cells.

Delivery of the transcriptional regulator, T-antigen, CDK4, or other proteins may be accomplished indirectly by transfecting transcriptionally active DNA into living cells (such as the cells of this invention) where the gene is expressed and the protein is made by cellular machinery. Similarly, only the RNA for these proteins may be expressed to reduce the likelihood of integration of the DNA. Several methods are known to one of skill in the art to effectively transfect plasmid DNA including calcium phosphate coprecipitation, DEAE dextran facilitated transfection, electroporation, microinjection, cationic liposomes and retroviruses, including, by way of nonlimiting example, Transfection Protocol 1 and Expression Vector Protocol 1 shown in Table I. Any method known in the art may be used with this invention to deliver the transcriptional regulator or T-antigen or CDK4 or other proteins into cells.

In certain embodiments, protein is delivered directly into cells of this invention, thereby bypassing the DNA transfection step. Several methods are known to one of skill in the art to effectively deliver proteins into cells including microinjection, electroporation, the construction of viral fusion proteins, and the use of cationic lipids.

Electroporation may be used to introduce foreign DNA into mammalian (Neumann, E. et al. (1982) EMBO J. 1, 841-845), plant and bacterial cells, and may also be used to introduce proteins (Marrero, M. B. et al. (1995) J. Biol. Chem. 270, 15734-15738; Nolkrantz, K. et al. (2002) Anal. Chem. 74, 4300-4305; Rui, M. et al. (2002) Life Sci. 71, 1771-1778). Cells (such as the cells of this invention) suspended in a buffered solution of the purified protein of interest are placed in a pulsed electrical field. Briefly, high-voltage electric pulses result in the formation of small (nanometer-sized) pores in the cell membrane. Proteins enter the cell via these small pores or during the process of membrane reorganization as the pores close and the cell returns to its normal state. The efficiency of delivery is dependent upon the strength of the applied electrical field, the length of the pulses, temperature and the composition of the buffered medium. Electroporation is successful with a variety of cell types, even some cell lines that are resistant to other delivery methods, although the overall efficiency is often quite low. Some cell lines remain refractory even to electroporation unless partially activated.

Microinjection was first used to introduce femtoliter volumes of DNA directly into the nucleus of a cell (Capecchi, M. R. (1980) Cell 22, 470-488) where it can be integrated directly into the host cell genome, thus creating an established cell line bearing the sequence of interest. Proteins such as antibodies (Abarzua, P. et al. (1995) Cancer Res. 55, 3490-3494; Theiss, C. and Meller, K. (2002) Exp. Cell Res. 281, 197-204) and mutant proteins (Naryanan, A. et al. (2003) J. Cell Sci. 116, 177-186) can also be directly delivered into cells via microinjection to determine their effects on cellular processes first hand. Microinjection has the advantage of introducing macromolecules directly into the cell, thereby bypassing exposure to potentially undesirable cellular compartments such as low-pH endosomes. All of these techniques can be used on the cells of this invention or the parent pluripotent cells.

Several proteins and small peptides have the ability to transduce or travel through biological membranes independent of classical receptor- or endocytosis-mediated pathways. Examples of these proteins include the HIV-1 TAT protein, the herpes simplex virus 1 (HSV-1) DNA-binding protein VP22, and the Drosophila Antennapedia (Antp) homeotic transcription factor. The small protein transduction domains (PTDs) from these proteins can be fused to other macromolecules, peptides or proteins to successfully transport them into a cell (Schwarze, S. R. et al. (2000) Trends Cell Biol. 10, 290-295). Sequence alignments of the transduction domains from these proteins show a high basic amino acid content (Lys and Arg) which may facilitate interaction of these regions with negatively charged lipids in the membrane. Secondary structure analyses show no consistent structure between all three domains. The advantages of using fusions of these transduction domains is that protein entry is rapid, concentration-dependent and appears to work with difficult cell types (Fenton, M. et al. (1998) J. Immunol. Methods 212, 41-48.). All of these techniques can be used on the cells of this invention or the parent pluripotent cells.

Liposomes have been rigorously investigated as vehicles to deliver oligonucleotides, DNA (gene) constructs and small drug molecules into cells (Zabner, J. et al. (1995) J. Biol. Chem. 270, 18997-19007; Feigner, P. L. et al. (1987) Proc. Natl. Acad. Sci. USA 84, 7413-7417). Certain lipids, when placed in an aqueous solution and sonicated, form closed vesicles consisting of a circularized lipid bilayer surrounding an aqueous compartment. These vesicles or liposomes can be formed in a solution containing the molecule to be delivered. In addition to encapsulating DNA in an aqueous solution, cationic liposomes can spontaneously and efficiently form complexes with DNA, with the positively charged head groups on the lipids interacting with the negatively charged backbone of the DNA. The exact composition and/or mixture of cationic lipids used can be altered, depending upon the macromolecule of interest and the cell type used (Feigner, J. H. et al. (1994) J. Biol. Chem. 269, 2550-2561). The cationic liposome strategy has also been applied successfully to protein delivery (Zelphati, O. et al. (2001) J. Biol. Chem. 276, 35103-35110). Because proteins are more heterogeneous than DNA, the physical characteristics of the protein such as its charge and hydrophobicity will influence the extent of its interaction with the cationic lipids. All of these techniques can be used on the cells of this invention or the parent pluripotent cells.

In certain embodiments Pro-Ject Protein Transfection Reagent may be used. Pro-Ject Protein Transfection Reagent utilizes a unique cationic lipid formulation that is noncytotoxic and is capable of delivering a variety of proteins into numerous cell types. The protein being studied is mixed with the liposome reagent and is overlayed onto cultured cells. The liposome:protein complex fuses with the cell membrane or is internalized via an endosome. The protein or macromolecule of interest is released from the complex into the cytoplasm free of lipids (Zelphati, O. and Szoka, Jr., F. C. (1996) Proc. Natl. Acad. Sci. USA 93, 11493-11498) and escaping lysosomal degradation. The noncovalent nature of these complexes is a major advantage of the liposome strategy as the delivered protein is not modified and therefore is less likely to lose its activity. All of these techniques can be used on the cells of this invention or the parent pluripotent cells.

In certain embodiments, the nuclear localization sequence of SV40 T-antigen may be modified. Protein transduction domains (PTD), covalently or non-covalently linked to the transcriptional regulator or T-antigen, allow the translocation of T-antigen across the cell membranes so the protein may ultimately reach the nuclear compartments of the cells. PTDs that may be fused with a Tag protein include the PTD of the HIV transactivating protein (TAT) (Tat 47-57) (Schwarze and Dowdy (2000) Trends Pharmacol. Sci. 21: 45-48; Krosl et al. (2003) Nature Medicine 9: 1428-1432). For the HIV TAT protein, the amino acid sequence conferring membrane translocation activity 5 corresponds to residues 47-57 (YGRKKRRQRRR) (SEQ ID NO: 1) (Ho et al. (2001) Cancer Research 61: 473-477; Vives et al. (1997) J. Biol Chem. 272: 16010-16017). This sequence alone can confer protein translocation activity. The TAT PTD may also be the nine amino acids peptide sequence RKKRRQRRR (SEQ ID NO: 2) (Pauk et al. Mol Cells (2002) 30:202-8). The TAT PTD sequences may be any of the peptide sequences disclosed in Ho et al. (2001) Cancer Research 61: 473-477, including YARKARRQARR (SEQ ID NO: 3), YARZLAARQARA (SEQ ID NO: 4), YARAARRAARR (SEQ ID NO: 5), and RARAARRAARA (SEQ ID NO: 6). Other proteins that contain PTDs that may be fused with Tag include the herpes simplex virus 1 (HSV-1) DNA-binding protein VP22 and the Drosophila Antennapedia (Antp) transcription factor (Schwarze et al. (2000) Trends Cell Biol 10: 290-295). For Antp, amino acids 43-58 (RQIKIWFQNRRMKWM) (SEQ ID NO: 7) represent the protein transduction domain, and for HSV VP22 the PTD is represented by the residues DAATATRGRSAASRPTERPRAPARSASRPRRPVE (SEQ ID NO: 8). Alternatively, HeptaARG (RRRRRRR) (SEQ ID NO: 9) or artificial peptides that confer transduction activity may be used as a PTD. The PTD may be a PTD peptide that is duplicated or multimerized; including one or more of the TAT PTD peptide YARAAARQARA (SEQ ID NO: 10), or a multimer consisting of three of the TAT PTD peptide YARARARQARA (SEQ ID NO: 11). Techniques for making fusion genes encoding fusion proteins are well known in the art. The joining of various DNA fragments coding for different polypeptide sequences may be performed in accordance with conventional techniques. The fusion gene can be synthesized by conventional techniques including automated DNA synthesizers. Alternatively, PCR amplification of gene fragments can be carried out using anchor primers which give rise to complementary overhangs between two consecutive gene fragments which can subsequently be annealed to generate a chimeric gene sequence (see, for example, Current Protocols in Molecular Biology, eds. Ausubel et al., John Wiley & 20 Sons: 1992). A fusion gene coding for a purification leader sequence, such as a poly-(His) sequence, may be linked to the N-terminus or C-terminus of the desired portion of the Tag polypeptide or Tag-fusion protein allowing the fusion protein be purified by affinity chromatography using a metal resin. The purification leader sequence can then be subsequently removed by treatment with enterokinase to provide the purified Tag polypeptide (e.g., see Hochuli, E., et al (1987) J. Chromatog. 411:177-184). T antigen that is provided in the media may be excreted by another cell type. The other cell type may be a feeder layer, such as a mouse stromal cell layer transduced to express secretable T antigen. For example, T antigen may be fused to or engineered to comprise a signal peptide, or a hydrophobic sequence that facilitates export and secretion of the protein. Alternatively, T antigen, as a fusion protein covalently or linked to a PTD or as a protein or a fusion protein non-covalently linked to a PTD, may be added directly to the media. In certain embodiments, cell lines are created that secrete the TAT-T antigen fusion protein (see Derer, W. et al. (2001) The FASEB Journal, Published online). Conditioned medium from TAT-T antigen secreting cell lines is subsequently added to recipient cell lines to promote cell growth.

Transient Expression Vector Methods

The transcriptional regulator genes and/or cell cycle drivers of the present invention may be introduced into cells using vectors for transient expression known in the art. These include, without limitation, those described in Yu, J et al, 2009 Science 324: 797-801. In brief, Epstein-Barr virus, oriP/EBNA1 vectors are utilized for introducing reprogramming factors into human somatic cells, hES cells, iPS cells, or other pluripotent stem cells not derived from a human embryo. Efficiency can be improved through the use of linkers to coexpress combinations of transcriptional regulators or cell cycle drivers with e use of internal ribosome entry site 2 (IRES2).

V. Use of Oligonucleotide Transcription Factor Binding Site Decoys

The moduclation of transcription factor activity in cells can be achieved in a number of ways. One method for repressing or blocking the activity of a transcription factor is through the use of a transcription factor ODN decoys, which floods the cell with competing synthetic, transcription factor-specific consensus sequences. These synthetic decoys “compete” for binding of the transcription factor with consensus sequences in target genes. If delivered into the cell in sufficient concentrations these “decoys” thus have the potential to attenuate the binding of the transcription factor to promoter regions of target genes and thus attenuate the function of the transcription factor to regulate the expression of its target gene(s). Transfected at high concentrations these decoys have been reported in the literature to completely block transcription factor function and thus represent powerful research tools for studying gene regulation in the cells of the present invention.

ODN decoys are generally double-stranded synthetic phosphorothioate deoyxynucleotides which range in length from 20-28 base pairs. The transcription factor consensus sequence occurs within the middle of the decoy sequence and is flanked by carefully selected base-pairs that allow for “optimized” transcription factor binding. ODN decoys may be labeled to allow imaging of the passage of the decoy into the cell (for example by fluorescence microscopy). ODN decoys may be produced using any convenient method and may be highly pruified (e.g., by HPLC). In certain embodiments, matching mutant decoys are employed for each transcription factor, where the mutant decoys have the same flanking sequences but contain a disrupted consensus sequence in comparison with the (wild type) ODN decoy. Such controls may be employed to determine the specificity of the activity of the wild type ODN in affecting the growth, proliferation and/or differentiation of progenitor cells according to the present invention.

In certain embodiments, naked ODN decoys are added directly into the cell culture media along with the cells of interest, whereby the cells uptake the ODN decoys where they can have their transcription factor repressing effect. In other embodiments, ODN decoys are introduced into cells via transfection protocols as known in the art, e.g., using a cationic lipid to form a liposome complex before adding the ODN decoy/liposome mixture directly to the media (e.g., OligofectAMINE reagent, InVitrogen). Other transfection reagents and processes may also be employed (e.g., FuGene 6 from Roche Diagnostics and Superfect Transfection Reagent from Qiagen).

Cells are contacted to the ODN decoys for a time sufficient for repression of the specific transcription factor being targeted. This time may vary, where in certain embodiments the time ranges from hours to days or even weeks. Such parameters may be determined empirically. It may be necessary to re-apply the ODN decoys one or more additional time during the incubation period to achieve the desired effect. ODN decoy concentrations used may very, ranging from 0.1 μM to 5 mM or more.

References describing the use of ODN decoys include the following, which are incorporated herein byb reference: Morishita, R., Higaki, J., Tomita N. and Ogihara T. (1998) Application of transcription factor “decoy” strategy as means of gene therapy and study of gene expression in cardiovascular disease. Circ Res 82, 1023-1028; and Mann, M. J. and Dzau, V. J. (2000) Therapeutic applications of transcription factor decoy oligonucleotides. J. Clin. Invest. 106, 1071-1075.

VI. Cells and Methods

Human embryo-derived (hED) cells are cells that are derived from human embryos such as human preimplantation embryos, postimplantation embryos (such as aborted embryonic tissue) or pluripotent cell lines such as ES cell lines derived from human preimplantation embryos wherein the embryo may be destroyed in the process of producing the cells. Human zygotes, 2 or more cell premorula stage such as blastomeres, morula stage, compacting morula, blastocyst embryo inner cell masses, or cells from developing embryos all contain pluripotent cells. Such cells may be differentiated using techniques described herein to yield the initial heterogeneous population of cells of the first step. Because such culture conditions may induce the direct differentiation of the ED cells without allowing the propagation of a hES cell line, the probability of a hES cell contaminating the resulting clonal or oligoclonal cultures is reduced.

Human somatic cells reprogrammed to pluripotency such as hiPS cells are cells that have the properties of hES cells including the presence of pluripotency markers such as OCT4, SOX2, CDH2, NANOG, are capable of differentiating into the three primary germ layers, but which do not require the use of cells from a human embryo that was destroyed.

The clonal, oligoclonal, or polyclonal cells of this invention (made by the methods of this invention) may be used as the starting point for deriving various differentiated cell types. The single cells of this invention may be the precursors of any cell or tissue lineage.

There have been numerous attempts in the prior art to differentiate embryonic stem cells, embryonal carcinoma cells, iPS cells, and embryonic germ cells into various cell types. These methods have been only marginally successful due to problems with culturing and characterizing the complex mixture of cell types originating out of differentiating ES, EC, iPS and EG cell cultures in vitro. It has not been possible to preserve a pure culture of the differentiated cell type without having the culture overgrown with fibroblastic or other contaminating cell types. See, Ian Freshney, Culture of Animal Cells: A Manual of Basic Technique (5th Ed.), New York: Wiley Publishing, 2005, p. 217. The methods of the present application can overcome those difficulties due in part to the unexpected clonogenicity of ES, EC, EG, iPS and ED cell-derived cells.

In one embodiment of the application, any methods of differentiating, propagating, identifying, isolating, or using stem cells known in the art (for example, U.S. Pat. Nos. 6,953,799, 7,029,915, 7,101,546, 7,129,034, 6,887,706, 7,033,831, 6,989,271, 7,132,286, 7,132,287, 6,844,312, 6,841,386, 6,565,843, 6,908,732, 6,902,881, 6,602,680, 6,719,970, 7,112,437, 6,897,061, 6,506,574, 6,458,589, 6,774,120, 6,673,606, 6,602,711, 6,770,478, 6,610,535, 7,045,353, 6,903,073, 6,613,568, 6,878,543, 6,670,397, 6,555,374, 6,261,841, 6,815,203, 6,967,019, 7,022,666, 6,423,681, 6,638,765, 7,041,507, 6,949,380, 6,087,168, 6,919,209, 6,676,655, 6,761,887, 6,548,299, 6,280,718, 6,656,708, 6,255,112, 6,413,773, 6,225,119, 6,056,777, 6,962,698, 6,936,254, 6,942,995, 6,924,142, 6,165,783, 6,093,531, 6,379,953, 6,022,540, 6,586,243, 6,093,557, 5,968,546, 6,562,619, 5,914,121, 6,251,665, 6,228,640, 5,948,623, 5,766,944, 6,783,775, 6,372,262, 6,147,052, 5,928,945, 6,096,540, 6,709,864, 6,322,784, 5,827,740, 6,040,180, 6,613,565, 5,908,784, 5,854,292, 6,790,826, 5,677,139, 5,942,225, 5,736,396, 5,648,248, 5,610,056, 5,695,995, 6,248,791, 6,051,415, 5,939,529, 5,922,572, 6,610,656, 6,607,913, 5,844,079, 6,686,198, 6,033,906, 6,340,668, 6,020,197, 5,766,948, 5,369,030, 6,001,654, 5,955,357, 5,700,691, 5,498,698, 5,733,878, 5,384,331, 5,981,165, 6,464,983, 6,531,445, 5,849,686, 5,197,985, 5,246,699, 6,177,402, 5,488,040, 6,667,034, 5,635,386, 5,126,325, 5,994,518, 5,032,507, 5,847,078, 6,004,548, 5,529,982, 4,342,828, 7,105,344, 7,078,230, 7,074,911, 7,053,187, 7,041,438, 7,030,292, 7,015,037, 7,011,828, 6,995,011, 6,969,608, 6,967,102, 6,960,444, 6,929,948, 6,878,542, 6,867,035, 6,866,843, 6,833,269, 6,828,144, 6,818,210, 6,800,480, 6,787,355, 6,777,231, 6,777,230, 6,749,847, 6,737,054, 6,706,867, 6,677,306, 6,667,391, 6,642,048, 6,638,501, 6,607,720, 6,576,464, 6,555,318, 6,545,199, 6,534,052, RE37,978, 6,461,865, 6,432,711, 6,399,300, 6,372,958, 6,369,294, 6,342,356, 6,337,184, 6,331,406, 6,271,436, 6,245,566, 6,235,970, 6,235,969, 6,215,041, 6,204,364, 6,194,635, 6,171,824, 6,090,622, 6,015,671, 5,955,290, 5,945,577, 5,914,268, 5,874,301, 5,866,759, 5,865,744, 5,843,422, 5,830,510, 5,795,569, 5,766,581, 5,733,727, 5,725,851, 5,712,156, 5,688,692, 5,656,479, 5,602,301, 5,370,870, 5,366,888, and 5,332,672, and U.S. patent publication nos. 20060251642, 20060217301, 20060216820, 20060193769, 20060161996, 20060134784, 20060134782, 20060110828, 20060104961, 20060088890, 20060079488, 20060078989, 20060068496, 20060062769, 20060024280, 20060015961, 20060009433, 20050244969, 20050244386, 20050233447, 20050221483, 20050164377, 20050153425, 20050149998, 20050142102, 20050130147, 20050118228, 20050106211, 20050054102, 20050032207, 20040260079, 20040228899, 20040193274, 20040152189, 20040151701, 20040141946, 20040121464, 20040110287, 20040052768, 20040028660, 20040028655, 20040018178, 20040009595, 20030203003, 20030175680, 20030161819, 20030148510, 20030082155, 20030040111, 20030040023, 20030036799, 20030032187, 20030032183, 20030031657, 20020197240, 20020164307, 20020098584, 20020098582, 20020090714, 20020022259, 20020019018, 20010046489, 20010024824, and 20010016203) are used in combination with the methods of the present application in differentiating, propagating, identifying, isolating, or using directly differentiated derivatives of pluripotent stem cells such as ES, iPS, or embryo-derived cells (i.e., substituting ED cells for ES cells and directly differentiating the ED cells). In certain embodiments, only the initial differentiation procedure from the prior art is used in combination with the present methods. In certain embodiments, pluripotent stem cells such as ES, iPS, ED cells are directly differentiated in the manner disclosed in the art for ES cells, and following differentiation, cells are plated resulting in isolating a number of individual clonal cultures of cells or a number of individual clonal cultures of cells that are subsequently combined (oligoclonal), or a large number of individual clonal cultures of cells that are subsequently combined (polyclonal), wherein one or more of said cultures comprise cells with reduced differentiation potential than the starting pluripotent stem cells and wherein each of said individual cultures having only one cell may be propagated into a pure clonal culture of cells and wherein each of said individual cultures of cells having cells that are oligoclonal may be propagated into a larger number of cells, and one or more (or all) of said individual cultures of cells is propagated. To summarize, pluripotent stem cells such as ES, iPS, or ED cells are differentiated in step 1 of this invention according to the methods in the art and then the heterogenous population of cells so generated are cultured and propagated according to step 2 of this invention.

In another aspect of the invention, the methods of this invention result in the derivation of endodermal cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of mesodermal cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of ectodermal cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of neuroglial precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of hepatic cells or hepatic precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of chondrocyte or chondrocyte precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of myocardial or myocardial precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of gingival fibroblast or gingival fibroblast precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of pancreatic beta cells or pancreatic beta precursor cells from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of retinal precursor cells with from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of hemangioblasts from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

In another aspect of the invention, the methods of this invention result in the derivation of dermal fibroblasts with prenatal patterns of gene expression from a single cell differentiated or in the process of differentiating from pluripotent stem cells such as, but not limited to, hES, hEG, hiPS, hEC or hED cells, including pluripotent stem cells not derived from a human embryo.

Dermal fibroblasts derived according to the invention can be grown on a biocompatible substratum and engrafted on the neodermis of artificial skin covering a wound. Autologous keratinocytes may also be cultivated on a commercially available membrane such as Laserskin™ using the methods provided in this invention.

In another embodiment of the present invention, it is possible to simplify burn treatment further and to save lives of patients having extensive burns where sufficient autologous skin grafts cannot be repeatedly harvested in a short period of time. The dead skin tissue of a patient with extensive burns can be excised within about three to seven days after injury. The wound can be covered with any artificial skin, for example Integra™, or any dermal equivalent thereof, and dermal keratinocytes or dermal fibroblasts produced according to the methods of this invention or derived from said cells may thereafter be engrafted on the neodermis of the artificial skin, with resultant lower rejection and infection incidences.

VII. Isolation of Cells

In certain embodiments of the invention, specific cell binding moieties are employed to isolate one or more cell of interest from a heterogenous population of cells and/or for re-deriving clonal or oligo clonal cell lines from a population after one or more culturing steps. Any convenient method for using specific cell binding moieties to isolate one or more cell may be employed, where in many embodiments the specific cell binding moiety is an antibody that recognizes a specific cell surface molecule (e.g., a receptor, CD antigen, etc.). The isolation of cells can be achieved using any convenient method, including but not milited to, fluorescence activated cell sorting (FACS), solid phase isolation processes using substrate-bound antibodies (e.g., on plates, columns, beads, and the like). Exemplary bead based sorting reagents include para-magnetic beads coated with antigen specific antibodies, e.g., as provided by Miltenyi Biotech. In certain embodiments, the cells are isolated based on the presence or absence of multiple cell surface molecules (e.g., multiple CD antigens). For example, in FACS applications, the cells may be sorted according to the cell surface expression level of multiple different cell surface antigens to make clonal cell lines, e.g., by use of an automated cell deposition device (ACDU). The ability to isolate cells by virtue of their cell surface antigen profile can be very useful in many steps of the subject invention, for example in re-deriving clonal cell lines after prolonged culture periods.

VIII. Methods of Network Analysis.

A Bayesian network is a graphical model that encodes probabilistic relationships among variables of interest. When used in conjunction with statistical techniques, the graphical model has several advantages for data analysis. One, because the model encodes dependencies among all variables, it readily handles situations where some data entries are missing. Two, a Bayesian network can be used to learn causal relationships, and hence can be used to gain understanding about a problem domain and to predict the consequences of intervention. Three, because the model has both a causal and probabilistic semantics, it is an ideal representation for combining prior knowledge (which often comes in causal form) and data. Four, Bayesian statistical methods in conjunction with bayesian networks offer an efficient and principled approach for avoiding the overfitting of data.

IX. Exemplary Uses of the Cell Lines of the Present Invention

Uses in making novel cells for therapy and research and embedded in gels are provided.

Secreted Protein Isolation Protocol 1—Conditioned Medium

Cells are grown in either their normal propagation medium (West et al., 2008, Regen Med vol. 3(3) pp. 287-308) or the differentiation conditions described herein. To obtain conditioned medium on a smaller scale (typically 1-2 L or less), the cells are grown in monolayer cultures in T150, T175 or T225 flasks (Corning or BD Falcon) in a 37° C. incubator with 10% CO2 atmosphere. For larger volume medium collections, the cells are typically grown either in 2 L roller bottles, on microcarrier suspensions (porous such as Cytodex varieties from Sigma-Aldrich, St. Louis, Mo., or non-porous such as from SoloHill Engineering, Ann Arbor, Mich.) in spinner flasks or other bioreactors, or in hollow fiber cartridge bioreactors (GE Healthcare, Piscataway, N.J.). Prior to conditioned medium collection, the cultures are rinsed twice with PBS and then incubated for 2 hours at 37° C. in the presence of serum-free medium (e.g., the same basal medium as described herein for the propagation or differentiation of the cells) in order to remove fetal serum proteins. The serum-free medium is then removed and replaced with fresh medium, followed by continued culture at 37° C. for 24-48 hours.

The culture-conditioned medium is then collected by separation from the cell-bound vessel surface or matrix (e.g., by pouring off directly or after sedimentation) and processed further for secreted protein concentration, enrichment or purification. As deemed appropriate for the collection volume, the culture medium is first centrifuged at 500 to 10,000×g to remove residual cells and cellular debris in 15 or 50 ml centrifuge tubes or 250 ml bottles. It is then passaged through successive 1 μm or 0.45 μm and 0.2 μm filter units (Corning) to remove additional debris, and then concentrated using 10,000 MW cutoff ultrafiltration in a stirred cell or Centricon centrifuge filter (Amicon-Millipore) for smaller volumes, or using a tangential flow ultrafiltration unit (Amicon-Millipore) for larger volumes. The retained protein concentrate is then dialyzed into an appropriate buffer for subsequent purification of specific proteins, and further purified using a combination of isoelectric focusing, size exclusion chromatography, ion exchange chromatography, hydrophobic or reverse phase chromatography, antibody affinity chromatography or other well-known methods appropriate for the specific proteins. During the various steps in the purification process, collection fractions are tested for the presence and quantity of the specific secreted protein by ELISA. The purified proteins are then kept in solution or lyophilized and then stored at 4 or minus 20-80° C.

Secreted Protein Isolation Protocol 2—Urea-Mediated Protein Extraction

In the case of some secreted proteins, interactions with the cell or ECM components may reduce the simple diffusion of factors into the medium as described above in Secreted Protein Isolation Protocol 1. A simple comparison of the yield in the two protocols will suffice to determine which protocol provides the highest yield of the desired factors. In the case of Secreted Protein Isolation Protocol 2, a low concentration of urea is added to facilitate the removal of factors. Urea extractions can be performed two days subsequent to feeding. On the second day, cell monolayers in T-150 cell culture flasks are rinsed twice with CMF-PBS and then incubated for two hours at 37° C. in the presence of serum-free medium. The rinse with CMF-PBS and the incubation in serum-free medium together aid in the removal of fetal serum proteins from the surface of the cells. The serum-free medium is then removed and 10 ml/T150 of freshly made 200 mM urea in CMF-PBS is added. The flasks are then placed on a rocker at 37° C. for 6.0 hours. The urea solution is then removed and immediately frozen at −70° C.

Extracellular Matrix Isolation Protocol 1—DOC-Mediated Preparation

Extracellular matrix proteins can be extracted using the method of Hedman et al, 1979 (Isolation of the pericellular matrix of human fibroblast cultures. J. Cell Biol. 81: 83-91). Cell layers are rinsed three times with CMF-PBS buffer at ambient temperature and then washed with 30 mL of 0.5% sodium deoxycholate (DOC), 1 mM phenylmethylsulfonylfluride (PMSF, from 0.4M solution in EtOH), CMF-PBS buffer 3×10 min. on ice while on a rocking platform. The flasks are then washed in the same manner with 2 mM Tris-HCl, pH 8.0 and 1 mM PMSF 3×5 min. The protein remaining attached to the flask is then removed in 2 mL of gel loading buffer with a rubber policeman.

Cellular and Acellular Formulations

In certain aspects, the represent invention includes the production and use of cellular and acellular formulations that find use in therapeutic applications, where the formulations include one or more cell according to the subject invention and/or one or more cellular product produced from one or more cell according to the subject invention. Any convenient method for generating cellular or acellular formulations, e.g., for therapeutic use (e.g., either topically or internally) may be employed.

Exemplary formulations include cellular and acellular formulations that provide for the slow release of components in a subject or patient, e.g., at a specific site where the components can provide a therapeutic benefit. Such formulations are described, for example, in US Patent Publications 20090105193 (entitled “Crosslinked compounds and methods of making and using thereof”), 20090117078 (entitled “Crosslinked compounds and methods of making and using thereof”), and 20080025950 (entitled “Modified macromolecules and associated methods of synthesis and use”), each of which is incorporated herein by reference. These patent publications describe macromolecular compounds that have been modified in order to facilitate crosslinking by introduction of at least one hydrazide-reactive group and/or aminooxy-reactive group, and methods of making and using in therapeutic applications (e.g., for scar-free wound healing, for delivering bioactive agents or living cells to a subject, for preventing adhesion after a surgical procedure or for bone and cartilage repair). The macromolecule can be an oligonucleotide, a nucleic acid, a polypeptide, a lipid, a glycoprotein, a glycolipid, a polysaccharide, a protein or a synthetic polymer (e.g., a glycosaminoglycan like hyaluronan). Natural extracellular matrix proteins and chemically modified versions thereof are used in many embodiments.

Any of the macromolecular compounds and compositions described in the above patent applications can include one or more pharmaceutically-active agent. The resulting pharmaceutical composition can provide a system for sustained, continuous delivery of biologically-active agents, including those produced by the cells of the present invention, to tissues adjacent to or distant from the application site. The biologically-active agent is capable of providing a local or systemic biological, physiological or therapeutic effect in the biological system to which it is applied. For example, the agent can act to enhance cell growth and tissue regeneration, control tumor growth, and enhance bone or cartilage growth, among other functions. Exemplary substances or metabolic precursosr derived from the cells of the present invention that are capable of promoting growth and survival of cells and tissues, or augmenting the functioning of cells, include but are not limited to: a nerve growth promoting substance such as a nerve growth factor, and the like; a hard or soft tissue growth promoting agent such as fibronectin (FN), human growth hormone (HGH), a colony stimulating factor, bone morphogenic protein (BMP), platelet-derived growth factor (PDGF), insulin-derived growth factor (IGF-I, IGF-II), transforming growth factor-alpha (TGF-alpha), transforming growth factor-beta (TGF-beta), epidermal growth factor (EGF), fibroblast growth factor (FGF), interleukin-1 (IL-1), vascular endothelial growth factor (VEGF) and keratinocyte growth factor (KGF). Additional non-cell derived components may also be present in the formulations, for example: dried bone material, and the like; antineoplastic agents such as methotrexate, 5-fluorouracil, adriamycin, vinblastine, cisplatin, tumor-specific antibodies conjugated to toxins, tumor necrosis factor, and the like.

The formulations can contain one or a combination of cells according to the present invention and/or products from one or a combination of cells according to the present invention, e.g., secreted factors present in culture supernatants. In certain embodiments, therapeutic formulations, e.g., slow release formulations, are prepared by combining the macromolecular compositions described in this section with the cellular factors and components isolated according to the Secreted Protein Isolation Protocol 1 (Conditioned medium), Secreted Protein Isolation Protocol 2 (Urea-mediated protein extraction) and Extracellular Matrix Isolation Protocol 1 (DOC-Mediated Preparation) detailed above.

Systems and Kits

Also provided by the subject invention are systems and kits that include the cells of the invention for use in various applications, as described herein. The systems and kits may further include reagents and materials for the propagation and use of the cells for research and/or therapeutic applications as described herein.

Combinations

It is appreciated that certain features of the invention, which are, for clarity, described in the context of separate embodiments, may also be provided in combination in a single embodiment. Conversely, various features of the invention, which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable sub-combination. All combinations of the embodiments pertaining to the cells and method for producing the same are specifically embraced by the present invention and are disclosed herein just as if each and every combination was individually and explicitly disclosed. In addition, all sub-combinations of the factors (e.g., transcription factors) listed in the embodiments describing such variables are also specifically embraced by the present invention and are disclosed herein just as if each and every such sub-combination of factors was individually and explicitly disclosed herein.

Examples

The following examples are put forth so as to provide those of ordinary skill in the art with a complete disclosure and description of how to make and use the present invention, and are not intended to limit the scope of what the inventors regard as their invention nor are they intended to represent that the experiments below are all or the only experiments performed. Efforts have been made to ensure accuracy with respect to numbers used (e.g. amounts, temperature, etc.) but some experimental errors and deviations should be accounted for. Unless indicated otherwise, parts are parts by weight, molecular weight is weight average molecular weight, temperature is in degrees Centigrade, and pressure is at or near atmospheric.

Example 1. Novel Clonal Human Progenitors Derived from hES Cells that Constitutively Express the Transcription Factor OCT4

Clonal progenitor lines from iPS cells constitutively expressing POU class 5 homeobox 1 (POU5F1), transcript variant 1, aka OTF4, OCT3, OCT4, MGC22487, OTF3, ACCESSION NUMBER NM_002701.4 were created using Reprogramming Protocol 1 described herein (See Table I). An iPS clone that did not silence OCT4 following differentiation was identified and used to generate clonal progenitors as described herein. In incubators using 5% oxygen, the iPS colonies were grown to confluence, then differentiated in DMEM supplemented with 10% FBS or endothelial MV2 media (Promocell) for seven days. The cells were then replated and expanded in four different media on gelatin coated plates. The latter four media used were: DMEM supplemented with 10% FBS, Promocell MV2 endothelial media, Promocell smooth muscle cell media, and Promocell skeletal muscle media. As the cells approached confluence, they were designated candidate cultures, and were plated at clonal densities or 500-2,500 cells/15 cm tissue culture plates coated with gelatin and incubated in 5% oxygen. After 14 days, visibly distinct colonies were identified and isolated using cloning cylinders with trypsin and scaled up in 24, 12, 6 well and subsequently larger flasks. After 6 passages, the cells were synchronized for five days in confluence in media with 10% of the normal mitogens and RNA was isolated for use in gene expression microarray analysis using Illumina bead arrays. The cell lines subjected to microarray analysis where the initial iPS cells were differentiated in DMEM supplemented with 10% FBS and later isolated from candidate cultures cultured in Promocell skeletal muscle medium were: 14SKEL7X, and 14SKEL18X. The cell lines subjected to microarray analysis where the initial iPS cells were differentiated in Promocell MV2 endothelial media and later isolated from candidate cultures cultured in Promocell skeletal muscle medium were: 14SKEL12Z, 14SKEL14Z, 14SKEL15Z, 14SKEL20Z, and 14SKEL24Z. The cell lines subjected to microarray analysis where the initial iPS cells were differentiated in DMEM supplemented with 10% FBS and later isolated from candidate cultures cultured in Promocell MV2 endothelial media were: 14PEND2X, 14PEND11X, 14PEND12X, 14PEND14X, 14PEND20X, 14PEND23X and 14PEND24X. The cell lines subjected to microarray analysis where the initial iPS cells were differentiated in DMEM supplemented with 10% FBS and later isolated from candidate cultures cultured in Promocell smooth muscle media were: 14SMOO2X and 14SMOO8X. The cell line subjected to microarray analysis where the initial iPS cells were differentiated in DMEM supplemented with 10% FBS and later isolated from candidate cultures cultured in Promocell MV2 endothelial media was: 14PEND17Z.

As can be seen in FIG. 1, all of these clonal progenitor cell lines continued to constitutively express OCT4 at levels comparable to hES and hiPS cell lines. As can be seen in Table II, where relative fluorescence units (RFUs) of greater than 100 are considered positive, and where genes are ranked with highest differential expression listed first, the clonal progenitors expressed a diverse array of differentiated patterns of gene expression and showed that many unique phenotypes were captured using the present invention.

It is noted here that the progenitor cell lines described herein have the unique gene expression patterns markers shown in Table II. These clonal progenitor cell lines can thus be identified and distinguished from other clonal progenitors in their unique pattern of most infrequently-expressed genes, that is with high filter scores as shown in Table II. For example, such progenitor cell lines can be identified from other cell types by using the top 5, top 6, top 7, top 8, top 9, top 10, up to the top 20 or more genes listed for each cell line. Thus, one aspect of the subject invention includes progenitor cell lines having the unique pattern of gene expression for the top 5 to top 20 or more genes as shown in Table II.

By way of example, the cell line 14SKEL12Z can be seen in Table II to have the gene LHX3 (Accession number NM_178138.2) expressed at 1716 RFUs which is 29-fold higher than the average of 253 other lines, and a filter score of 252 indicating that it was the only line in 253 lines expressing the gene. This can be seen in FIG. 2. The line 14SKEL12Z also expressed the relatively rare transcript RESP18 (Accession number NM_001007089.2). The expression of both LHX3 and RESP18 as well as PITX1 and PITX2 is consistent with progenitors of the anterior and intermediate lobes of the pituitary. Such purified pituitary cells have not been previously produced from pluripotent stem cells and are useful in research and therapy wherein said cells are transplanted to restore pituitary function impaired by disease.

In addition, other useful cell types include those expressing IL19 as shown in FIG. 3 and Table II. Microarray gene expression analysis of the expression of IL19 (Accession number NM_013371.2) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells, and select cell lines of the present invention showed that pluripotent rarely if ever express IL19, but that the clonal cell lines of the present invention 14SMOO8X, 14PEND11X, and 14PEND20X express the rare gene. Cells expressing the gene can be used to manufacture the protein in vivo for therapeutic effect such as to provide a function normally provided by monocytes. It can bind the IL20 receptor complex and lead to the activation of the signal transducer and activator of transcription 3 (STAT3). It can be used to up-regulate the expression of IL6 and TNF-alpha and induce apoptosis, or used to manufacture the secreted protein as described in the sections above titled Secreted Protein Isolation Protocol 1 or Secreted Protein Isolation Protocol.

In addition, other useful cell types include those expressing gastrin-releasing peptide RNA as shown in FIG. 4 and Table II. Microarray gene expression analysis of the expression of Gastrin-releasing peptide (GRP) (Accession number NM_001012513.1) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells rarely showed expression of the gene, while select cell lines of the present invention including 14SKEL14Z, 14SKEL15Z, 14SKEL20Z, 14SKEL24Z, and 14PEND20X expressed abundant levels of the transcript (>1,000 RFUs). Cells expressing the gene can be used to manufacture the protein in vivo for therapeutic effect such as to regulate numerous functions of the gastrointestinal and central nervous systems, including release of gastrointestinal hormones, smooth muscle cell contraction, and epithelial cell proliferation as is known in the art for the normal protein, or used to manufacture the secreted protein as described in the sections above titled Secreted Protein Isolation Protocol 1 or Secreted Protein Isolation Protocol.

In addition, another useful cell type includes one expressing paraoxonase 3 RNA (PON3) as shown in FIG. 5 and Table II. Microarray gene expression analysis of paraoxonase 3 (PON3) (Accession number NM_000940.1) in diverse normal cultured cell types, diverse normal clonal progenitor cell lines derived from hES cells, hES and iPS cells, and the select cell lines of the present invention shows rare and low expression of the gene, while the line 14PEND2X expressed abundant levels of the gene. Cells expressing the gene can be used to manufacture the protein in vivo for therapeutic effect such as when it is secreted into the blood as a protein and associates with high-density lipoprotein (HDL). The protein also rapidly hydrolyzes lactones and can inhibit the oxidation of low-density lipoprotein (LDL), a function that is believed to slow the initiation and progression of atherosclerosis, or used to manufacture the secreted protein as described in the sections above titled Secreted Protein Isolation Protocol 1 or Secreted Protein Isolation Protocol.

Example 2

Novel clonal human progenitors derived from hES cells with inducible expression of the transcription factors SIX1 and SIX2 are generated in hES and hiPS cells as described herein. Clonal progenitor lines are assayed for their capacity to undergo chondrogenesis in micromass conditions in the presence of TGFB3, e.g., as described in PCT Patent Applicaiton Serial No. PCT/US2010/042369 filed on Jul. 16, 2010, entitled “Methods and Compositions for In Vitro and In Vivo Chondrogenesis”, incorporated herein by reference.

Example 3

Novel clonal human progenitors are isolated, expanded, and microarray analysis is performed from hES and somatic cells reprogrammed to a pluripotent stem cell state (hiPS cells) overexpressing each of the CNS transcription factors SOX2, SOX21, and PAX6 introduced by an expression plasmid as described herein. hES cells are also isolated where there is separately-inducible expression of the genes for the pair of factors SOX2/SOX21, and PAX6/SOX21. In the case where separately-inducible pairs of factors are introduced, SOX21 is induced only after expansion of the clonal progenitors to induce terminal neuronal differentiation which is assayed by microarray analysis.

Example 4

Novel clonal human progenitors are isolated, expanded, and microarray analysis is performed from hES cells and somatic cells reprogrammed to a pluripotent stem cell state (hiPS cells) overexpressing each of the endoderm transcription factors FOXA1, and SOX17 introduced by an expression plasmid as described herein. hES and hiPS cells are also isolated where there is separately-inducible expression of the genes for the pair of factors FOXA1, and SOX17. The resulting clonal, oligoclonal, or pooled polyclonal progenitor cell lines are useful in the treatment of diseases associated with dysfunctional endoderm-derived cells including pancreatic beta cells for the treatment of diabetes, lung epithelial cells for the treatment of lung disease, intestinal epithelium for the treatment of digestive disorders, and so on.

Example 5

Novel clonal human progenitors are isolated, expanded, and microarray analysis is performed from hES cells and somatic cells reprogrammed to a pluripotent stem cell state (hiPS cells) overexpressing cardiac field transcription factor NKX2.5 introduced by an expression plasmid as described herein. hES and hiPS cells are also isolated where there is inducible expression of the gene. The resulting clonal, oligoclonal, or pooled polyclonal progenitor cell lines are useful in the treatment of diseases associated with dysfunctional myocardium such as heart failure or acute myocardial infarction wherein the resulting cells are injected into the heart tissue by means of a catheter or other means known in the art, together with matrix such as HyStem hydrogel (www.biotimeinc.com) to promote engraftment.

Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity of understanding, it is readily apparent to those of ordinary skill in the art in light of the teachings of this invention that certain changes and modifications may be made thereto without departing from the spirit or scope of the appended claims.

Accordingly, the preceding merely illustrates the principles of the invention. It will be appreciated that those skilled in the art will be able to devise various arrangements which, although not explicitly described or shown herein, embody the principles of the invention and are included within its spirit and scope. Furthermore, all examples and conditional language recited herein are principally intended to aid the reader in understanding the principles of the invention and the concepts contributed by the inventors to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions. Moreover, all statements herein reciting principles, aspects, and embodiments of the invention as well as specific examples thereof, are intended to encompass both structural and functional equivalents thereof. Additionally, it is intended that such equivalents include both currently known equivalents and equivalents developed in the future, i.e., any elements developed that perform the same function, regardless of structure. The scope of the present invention, therefore, is not intended to be limited to the exemplary embodiments shown and described herein. Rather, the scope and spirit of present invention is embodied by the appended claims.

Tables

TABLE I Protocols Transfection Protocol 1 By way on nonlimiting example, for stable transfections, plasmids are linearized by restriction digest such that 0.2 microgram of DNA is contained within 1 microliter of the restriction digest mixture, and such that approximately 1 microgram of DNA per 5 square centimeters of the tissue culture dish/plate/flask into which cells are seeded during the transfection process can be used. Linearized plasmids are diluted in mTeSR1 Basal Medium (STEMCELL Technologies Inc.), and supplemented with FuGENE HD (Roche) such that the ratio of DNA (in microgram):FuGENE HD (in microliter):mTeSR1 Basal Medium (in milliliter) is 1:3:0.25. The DNA/FuGENE HD mixture is incubated at room temperature (RT) for 30 minutes-2 hours. In the meantime, pluripotent stem cells such as hES cells or hiPS cells are grown on Matrigel (BD Biosciences)-coated tissue culture ware are detached with Accutase, and an aliquot of the single cell suspension used for cell counting. Cells are spun at 200 × g for 5 minutes at RT and suspended to 1.5 × 10e6 cells per milliliter in mTeSR1 complete medium supplemented with 10 micromolar Y27632 (ROCK inhibitor). Approximately 0.75 × 10e6 cells per 1 microgram of DNA are combined with the DNA/FuGENE HD mixture, then plated on Matrigel-coated tissue culture ware, and incubated at 37 centigrades/5% oxygen/10% carbon dioxide. 3 hours later, 1 volume of mTeSR1 complete medium supplemented with 2X Penicillin/Streptomycin and 10 micromolar Y27632 is added. The next day, medium is replaced by mTeSR1 complete medium containing Penicillin/Streptomycin and 10 micromolar Y27632. Selection for hES cells or iPS cells with stably integrated transgenes is carried out 2 days or later after transfection. For transient transfections, a similar procedure is carried out also relying on a ratio of DNA:FuGENE HD:mTeSR1 Basal Medium = 1:3:0.25. Reprogramming Protocol 1: Somatic cells are reprogrammed using retroviral-mediated expression of OCT4, SOX2, and KLF4 (pMx- OCT4/pMx-SOX2/pMx-KLF4 viruses) as described in PCT Application Serial No. PCT/US2011/025316, published as WO 2011/103343 and entitled “METHODS FOR TELOMERE LENGTH AND GENOMIC DNA QUALITY CONTROL ANALYSIS IN PLURIPOTENT STEM CELLS”, incorporated herein by reference in its entirety. The somatic cells (including those genetically modified to display altered transcriptional regulators as described herein) are infected with the SOK (SOX2, OCT4 and KLF4) viruses for 20 hours in presence of 8 μg/ml of polybrene. After infection, media is changed and cells are plated onto irradiated feeders (12 Gy). Co-cultures are then switched to knock-out DMEM hES media (Invitrogen, cat# 10829-018) containing 16% KOSR media (Invitrogen); 1X Glutamax (Invitrogen); pen/strep (Invitrogen); non-essential amino acids (Invitrogen); 0.6 ml β-Mercaptoethanol (Invitrogen) per 500 ml of media and 50 ng/ml of bFGF (Millipore, cat#GF003). Media is changed daily until iPS colonies appear. The colonies are manually picked with a pipette tip (p200) or by using plastic cloning rings, washed in PBS and manually removed to 24 well dishes containing radiated feeders. The hES media is changed completely everyday. The cells are subsequently transferred to six well dishes and eventually moved to feeder free 10 cm2 dishes (Corning). Matrigel (BD Bioscience) is thawed at 4° C. and diluted 1:12 with cold DMEM (Invitrogen). A final concentration of 100 ng/ml of bFGF (Millipore) is added to mTESR1 media (Stem Cell Technologies, Vancouver). Media is changed every day and the differentiated or near differentiated colonies are removed. Cell lines are subcultured on average once per week.

TABLE II Fold over Filter ProbeID RefSeq_ID Symbol Definition Synonyms RFUs Ave. Score 14PEND11X P6 3180068 NM_013371.2 IL19 Homo sapiens NG.1; IL- 888.5502538 15.96168331 247 interleukin 19 (IL19), 10C; transcript variant 2, ZMDA1; mRNA. MDA1 5860504 NM_001080848.1 CSAG3B Homo sapiens CSAG CSAG2 274.1073604 3.806242927 247 family, member 3B (CSAG3B), mRNA. 6350682 NM_016102.2 TRIM17 Homo sapiens RBCC; terf; 241.0488156 3.04374161 247 tripartite motif- RNF16 containing 17 (TRIM17), transcript variant 1, mRNA. 4010095 NM_203311.1 CSAG3A Homo sapiens CSAG MGC17065 708.1494078 8.825421693 246 family, member 3A (CSAG3A), mRNA. 6900377 NM_001080848.1 CSAG3B Homo sapiens CSAG CSAG2 444.11489 5.81561537 246 family, member 3B (CSAG3B), mRNA. 630619 NM_006665.3 HPSE Homo sapiens HPA; HSE1; 326.830203 3.839238782 246 heparanase (HPSE), HPSE1; mRNA. HPR1 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 30460.03096 145.1865227 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 7160192 NM_139319.1 SLC17A8 Homo sapiens solute VGLUT3 483.2905245 7.840373688 244 carrier family 17 (sodium-dependent inorganic phosphate cotransporter), member 8 (SLC17A8), mRNA. 6900196 NM_004975.2 KCNB1 Homo sapiens KV2.1; h- 1279.524365 17.97978203 243 potassium voltage- DRK1; gated channel, Shab- DRK1 related subfamily, member 1 (KCNB1), mRNA. 3450544 NM_138569.2 C6orf142 Homo sapiens MGC18257 188.5175973 2.228827544 243 chromosome 6 open reading frame 142 (C6orf142), mRNA. 6510274 NM_022124.3 CDH23 Homo sapiens DKFZp434P2350; 213.8431472 2.220053223 242 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 1, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 5360064 NM_012483.1 GNLY Homo sapiens D2S69E; 215.1233503 2.422329434 241 granulysin (GNLY), 519; LAG2; transcript variant 519, NKG5; mRNA. LAG-2; TLA519 5860075 NM_004345.3 CAMP Homo sapiens HSD26; 187.4673435 2.075440453 241 cathelicidin LL37; antimicrobial peptide FALL39; (CAMP), mRNA. FALL-39; CAP18 360379 NM_194435.1 VIP Homo sapiens MGC13587; 259.2274112 3.052114612 240 vasoactive intestinal PHM27 peptide (VIP), transcript variant 2, mRNA. 6270022 NM_002110.2 HCK Homo sapiens JTK9 610.5037225 7.680844729 239 hemopoietic cell kinase (HCK), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 305.5191201 3.198362009 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 236.6600677 2.283355152 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 3390523 NM_001010971.1 SAMD13 Homo sapiens sterile RP11- 227.2099831 2.282533933 239 alpha motif domain 376N17.1 containing 13 (SAMD13), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 5979.623181 34.51368017 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 4670138 NM_003645.2 SLC27A2 Homo sapiens solute HsT17226; 258.8497462 2.27246929 238 carrier family 27 (fatty FATP2; acid transporter), FACVL1; member 2 hFACVL1; (SLC27A2), mRNA. VLACS; VLCS; ACSVL1 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 796.8850254 10.50369487 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 270.9575296 2.750523803 237 homology 2 domain containing transforming protein D (SHD), mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 233.2972927 2.357055576 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 5015.168866 41.6397734 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 4860403 NM_002747.3 MAPK4 Homo sapiens Erk4; 681.5299492 9.892172042 236 mitogen-activated p63MAPK; protein kinase 4 ERK3; (MAPK4), mRNA. PRKM4 6330070 NM_013371.2 IL19 Homo sapiens NG.1; IL- 698.1584602 8.432367471 235 interleukin 19 (IL19), 10C; transcript variant 2, ZMDA1; mRNA. MDA1 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 627.2695431 7.965185955 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 270487 NM_170600.1 SH2D3C Homo sapiens SH2 NSP3; 296.3759729 3.171074362 235 domain containing 3C PRO34088; (SH2D3C), transcript CHAT; variant 2, mRNA. FLJ39664 60278 NM_001048164.1 SLC7A3 Homo sapiens solute CAT-3; 707.6612521 5.26365107 234 carrier family 7 ATRC3; (cationic amino acid FLJ14541; transporter, y+ MGC20687 system), member 3 (SLC7A3), transcript variant 2, mRNA. 6020224 NM_000507.2 FBP1 Homo sapiens FBP 277.680203 3.741121248 234 fructose-1,6- bisphosphatase 1 (FBP1), mRNA. 7550358 NM_006159.1 NELL2 Homo sapiens NEL- NRP2 741.8240271 4.338251013 233 like 2 (chicken) (NELL2), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 389.3572758 2.833686856 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 378.9091371 4.110594619 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 580187 NM_001029851.1 PDE8B Homo sapiens FLJ11212 351.5852792 3.117135307 232 phosphodiesterase 8B (PDE8B), transcript variant 3, mRNA. 150066 NM_006011.3 ST8SIA2 Homo sapiens ST8 MGC116857; 268.872758 2.751244758 232 alpha-N-acetyl- HsT19690; neuraminide alpha- ST8SIA-II; 2,8-sialyltransferase 2 SIAT8B; (ST8SIA2), mRNA. MGC116854; STX 1010360 NM_001024070.1 GCH1 Homo sapiens GTP DYT5; GTP- 287.9126058 3.574011669 230 cyclohydrolase 1 CH-1; (GCH1), transcript GTPCH1; variant 3, mRNA. GCH 510452 NM_002012.1 FHIT Homo sapiens fragile FRA3B; 228.7604061 2.317346033 230 histidine triad gene AP3Aase (FHIT), mRNA. 3310037 NM_005634.2 SOX3 Homo sapiens SRY SOXB; 1479.767174 10.8216027 229 (sex determining MRGH region Y)-box 3 (SOX3), mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 556.5102369 5.787657576 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 847.2759729 6.532092112 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 961.9575296 6.967734817 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 2350201 NM_181670.2 ANKS1B Homo sapiens ankyrin MGC26087; 285.6676819 3.125722047 227 repeat and sterile EB-1; alpha motif domain ANKS2; containing 1B AIDA-1; (ANKS1B), transcript AIDA; variant 2, mRNA. cajalin-2 1450634 NM_022164.1 TINAGL1 Homo sapiens LIECG3; 270.9575296 2.631481406 227 tubulointerstitial LCN7; nephritis antigen-like TINAGRP; 1 (TINAGL1), ARG1 mRNA. 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 1108.214552 8.081731657 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 9900.403892 14.71166303 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 343.5135364 3.171424587 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 277.0624365 3.125835177 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 11585.36311 19.28453406 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 14PEND12X P6 7610746 NM_024019.2 NEUROG2 Homo sapiens ngn-2; 297.4715736 3.41521657 250 neurogenin 2 NGN2; (NEUROG2), mRNA. MGC46562; Math4A; Atoh4 2360743 NM_173355.2 UPP2 Homo sapiens uridine UPASE2; 209.841286 2.786979154 250 phosphorylase 2 UDRPASE2; (UPP2), mRNA. UP2 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 1769.958037 26.4030724 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 2600424 NM_000331.3 SAA1 Homo sapiens serum MGC111216; 902.0096447 10.77448424 245 amyloid A1 (SAA1), SAA; transcript variant 1, PIG4; mRNA. TP53I4 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 431.6473773 3.605401705 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 11220.49662 52.85041744 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 247.5932318 3.254269838 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 438.5033841 5.285112768 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 230.4490694 2.471180495 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 4810487 NM_018712.2 ELMOD1 Homo sapiens DKFZp547C176 423.9783418 4.891351541 242 ELMO/CED-12 domain containing 1 (ELMOD1), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 390.171912 3.35811555 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6560487 NM_001842.3 CNTFR Homo sapiens ciliary MGC1774 235.391709 2.429155916 242 neurotrophic factor receptor (CNTFR), transcript variant 2, mRNA. 3390372 NM_001843.2 CNTN1 Homo sapiens GP135; F3 682.6843486 8.726416526 241 contactin 1 (CNTN1), transcript variant 1, mRNA. 4880138 NM_000905.2 NPY Homo sapiens PYY4 1095.820812 8.509567707 241 neuropeptide Y (NPY), mRNA. 6270022 NM_002110.2 HCK Homo sapiens JTK9 263.4060914 2.745411036 239 hemopoietic cell kinase (HCK), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 1223.904569 6.268912118 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 3840192 NM_000817.2 GAD1 Homo sapiens SCP; 284.7027073 3.402376455 238 glutamate FLJ45882; decarboxylase 1 GAD (brain, 67 kDa) (GAD1), transcript variant GAD67, mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 289.4909475 3.165659996 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 1340551 NM_024674.4 LIN28 Homo sapiens lin-28 CSDD1; 2479.402538 2.210091192 237 homolog (C. elegans) LIN28A; (LIN28), mRNA. FLJ12457; LIN-28; ZCCHC1 840291 NM_013251.2 TAC3 Homo sapiens PRO1155; 298.9903553 2.009165335 237 tachykinin 3 (TAC3), NKB; transcript variant 2, ZNEUROK1; mRNA. NKNB 5870435 NM_006043.1 HS3ST2 Homo sapiens heparan 3OST2; 273.9906937 2.977575504 236 sulfate (glucosamine) 30ST2 3-O-sulfotransferase 2 (HS3ST2), mRNA. 2570538 NM_007084.2 SOX21 Homo sapiens SRY SOX25 1192.648308 7.92266175 235 (sex determining region Y)-box 21 (SOX21), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 373.3384095 4.344035695 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 5550414 NM_019845.2 RPRM Homo sapiens FLJ90327; 594.4890017 3.325358686 234 reprimo, TP53 REPRIMO dependent G2 arrest mediator candidate (RPRM), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 228.1532149 2.224344891 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 5130156 NM_003106.2 SOX2 Homo sapiens SRY ANOP3; 815.6978003 1.950260059 234 (sex determining MGC2413; region Y)-box 2 MCOPS3 (SOX2), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 787.1558376 6.750488243 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 402.0670051 4.584713555 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 5860689 NM_016335.2 PRODH Homo sapiens proline HSPOX2; 378.1150592 2.479178716 233 dehydrogenase MGC148078; (oxidase) 1 (PRODH), PIG6; nuclear gene encoding SCZD4; mitochondrial protein, FLJ33744; mRNA. PRODH1; TP53I6; MGC148079; PRODH2 3190246 NM_004067.2 CHN2 Homo sapiens BCH; 226.9649746 2.379830339 233 chimerin (chimaerin) ARHGAP3; 2 (CHN2), transcript RHOGAP3; variant 2, mRNA. MGC138360 2810673 NM_152739.3 HOXA9 Homo sapiens MGC1934; 446.3071066 1.957145588 233 homeobox A9 HOX1.7; (HOXA9), mRNA. HOX1G; HOX1; ABD-B 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 613.7247885 7.363051918 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 670414 NM_003413.2 ZIC3 Homo sapiens Zic HTX1; 1096.337563 4.255659158 232 family member 3 ZNF203; heterotaxy 1 (odd- HTX paired homolog, Drosophila) (ZIC3), mRNA. 150066 NM_006011.3 ST8SIA2 Homo sapiens ST8 MGC116857; 367.6824027 4.129811944 232 alpha-N-acetyl- HsT19690; neuraminide alpha- ST8SIA-II; 2,8-sialyltransferase 2 SIAT8B; (ST8SIA2), mRNA. MGC116854; STX 7040497 NM_001179.3 ART3 Homo sapiens ADP- 401.8192893 3.053793795 232 ribosyltransferase 3 (ART3), mRNA. 7400392 NM_021186.2 ZP4 Homo sapiens zona ZBP; ZPB; 162.1536379 1.916272182 232 pellucida glycoprotein ZP1 4 (ZP4), mRNA. 240592 NM_001094.4 ACCN1 Homo sapiens BNC1; 270.8832487 2.445203911 231 amiloride-sensitive hBNaC1; cation channel 1, MDEG; neuronal (ACCN1), BNaC1; transcript variant 2, ASIC2a; mRNA. ACCN; ASIC2 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 1261.548562 14.38688614 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3310037 NM_005634.2 SOX3 Homo sapiens SRY SOXB; 428.3458545 2.421980564 229 (sex determining MRGH region Y)-box 3 (SOX3), mRNA. 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 805.6666667 6.162194773 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 2750154 NM_014800.9 ELMO1 Homo sapiens MGC126406; 217.5994924 2.081154468 228 engulfment and cell CED12; motility 1 (ELMO1), CED-12; transcript variant 1, KIAA0281; mRNA. ELMO-1 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 786.8602369 5.517432956 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 934.3940778 6.657286456 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 2030445 NM_002025.2 AFF2 Homo sapiens FMR2; 327.9978003 3.313605756 226 AF4/FMR2 family, MRX2; member 2 (AFF2), OX19; mRNA. FRAXE 430204 NM_005378.4 MYCN Homo sapiens v-myc ODED; 941.0628596 2.503281932 226 myelocytomatosis NMYC; viral related oncogene, MODED; N- neuroblastoma derived myc (avian) (MYCN), mRNA. 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 258.5707276 2.320790506 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 9406.515059 13.92787532 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 4920047 NM_001008223.1 C1QL4 Homo sapiens MGC131708 432.9840948 4.255154143 225 complement component 1, q subcomponent-like 4 (C1QL4), mRNA. 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 11101.23858 52.27806354 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 1819.413367 27.16875608 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 1690563 NM_199161.1 SAA1 Homo sapiens serum MGC111216; 3500.000677 21.66993608 212 amyloid A1 (SAA1), SAA; transcript variant 2, PIG4; mRNA. TP53I4 2510132 NM_004378.1 CRABP1 Homo sapiens cellular RBP5; 6268.61709 18.92144854 212 retinoic acid binding CRABPI; protein 1 (CRABP1), CRABP; mRNA. CRABP-I 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 10441.29577 17.28141402 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 1780273 XM_001127464.1 ALOX5 PREDICTED: Homo 3381.302876 16.67848822 134 sapiens arachidonate 5-lipoxygenase (ALOX5), mRNA. 1430750 NM_031461.3 CRISPLD1 Homo sapiens CRISP10; 2605.396785 16.48430171 146 cysteine-rich secretory DKFZp762F133; protein LCCL domain LCRISP1 containing 1 (CRISPLD1), mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 1349.498139 15.45959168 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 1570382 NM_182920.1 ADAMTS9 Homo sapiens ADAM KIAA1312; 3201.370558 14.36094098 123 metallopeptidase with FLJ42955 thrombospondin type 1 motif, 9 (ADAMTS9), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 9064.077834 13.38443706 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 6110044 NM_001875.2 CPS1 Homo sapiens 10310.73926 12.85053084 17 carbamoyl-phosphate synthetase 1, mitochondrial (CPS1), mRNA. 2600424 NM_000331.3 SAA1 Homo sapiens serum MGC111216; 976.8588832 11.75153719 245 amyloid A1 (SAA1), SAA; transcript variant 1, PIG4; mRNA. TP53I4 6510554 NM_080760.3 DACH1 Homo sapiens DACH; 1421.217259 10.37859753 197 dachshund homolog 1 FLJ10138 (Drosophila) (DACH1), transcript variant 2, mRNA. 6580626 NM_018015.4 CXorf57 Homo sapiens RP11- 2530.088663 10.13675566 146 chromosome X open 647M7.1; reading frame 57 FLJ10178; (CXorf57), mRNA. FLJ14191 7380239 NM_004114.2 FGF13 Homo sapiens FGF2; FHF2 1914.284941 9.747040198 197 fibroblast growth factor 13 (FGF13), transcript variant 1A, mRNA. 3930424 NM_053277.1 CLIC6 Homo sapiens CLIC1L 1425.501692 9.24057445 195 chloride intracellular channel 6 (CLIC6), mRNA. 2750092 NM_005010.3 NRCAM Homo sapiens MGC138845; 1556.537902 9.101003472 194 neuronal cell adhesion MGC138846; molecule (NRCAM), KIAA0343 transcript variant 2, mRNA. 6520064 NM_152390.1 TMEM178 Homo sapiens MGC33926 3950.689509 8.83406618 41 transmembrane protein 178 (TMEM178), mRNA. 4280739 NM_153000.3 APCDD1 Homo sapiens DRAPC1; 3228.213536 8.42766302 195 adenomatosis B7323; polyposis coli down- FP7019 regulated 1 (APCDD1), mRNA. 3390372 NM_001843.2 CNTN1 Homo sapiens GP135; F3 652.6756345 8.298873032 241 contactin 1 (CNTN1), transcript variant 1, mRNA. 2320598 NM_000266.1 NDP Homo sapiens Norrie ND; EVR2; 2015.200508 8.108560783 112 disease FEVR (pseudoglioma) (NDP), mRNA. 4880138 NM_000905.2 NPY Homo sapiens PYY4 1008.01489 7.747585134 241 neuropeptide Y (NPY), mRNA. 5810678 NM_002910.4 RENBP Homo sapiens renin RNBP; RBP 1564.592386 7.643734819 192 binding protein (RENBP), mRNA. 3140139 NM_006158.2 NEFL Homo sapiens NF68; 733.3238579 7.460258344 220 neurofilament, light CMT2E; polypeptide 68 kDa NFL; (NEFL), mRNA. CMT1F; NF-L 2570538 NM_007084.2 SOX21 Homo sapiens SRY SOX25 1089.118274 7.148113657 235 (sex determining region Y)-box 21 (SOX21), mRNA. 1940747 NM_181505.1 PPP1R1B Homo sapiens protein DARPP-32; 974.3307107 7.112562778 215 phosphatase 1, FLJ20940; regulatory (inhibitor) DARPP32 subunit 1B (dopamine and cAMP regulated phosphoprotein, DARPP-32) (PPP1R1B), transcript variant 2, mRNA. 6020523 NM_181676.1 PPP2R2B Homo sapiens protein PR2AB- 4083.244332 7.054715728 1 phosphatase 2 BETA; (formerly 2A), PR52B; regulatory subunit B, PR2APR55- beta isoform BETA; (PPP2R2B), transcript PR2AB55- variant 4, mRNA. BETA; MGC24888; PR55- BETA; PP2A- PR55B; SCA12 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 974.3307107 6.984564041 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 583.3066836 6.948553114 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 882.4951777 6.845182891 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 3520246 NM_004887.3 CXCL14 Homo sapiens SCYB14; 1439.55753 6.784666288 204 chemokine (C-X-C KS1; Kec; motif) ligand 14 bolekine; (CXCL14), mRNA. MGC10687; NJAC; MIP- 2g; BRAK; BMAC 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 781.6235195 6.696015971 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1400520 NM_014141.4 CNTNAP2 Homo sapiens NRXN4; 2559.152792 6.560386834 224 contactin associated CDFE; protein-like 2 DKFZp781D1846; (CNTNAP2), mRNA. CASPR2 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 512.0135364 6.338741117 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 1770754 NM_014988.1 LIMCH1 Homo sapiens LIM DKFZp686B2470; 2178.018105 6.025738134 143 and calponin DKFZp781I1455; homology domains 1 DKFZp781C1754; (LIMCH1), mRNA. LMO7B; DKFZp686G18243; DKFZp686G2094; MGC72127; DKFZp434I0312; DKFZp686A01247; LIMCH1A 3840753 NM_001040708.1 HEY1 Homo sapiens MGC1274; 3693.71912 5.946625326 22 hairy/enhancer-of- CHF2; split related with HERP2; YRPW motif 1 HRT-1; (HEY1), transcript HESR1; variant 2, mRNA. OAF1 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 835.6263959 5.921354971 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 475.4637902 5.805877462 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6980301 NM_005010.3 NRCAM Homo sapiens MGC138845; 1029.687986 5.590344651 164 neuronal cell adhesion MGC138846; molecule (NRCAM), KIAA0343 transcript variant 2, mRNA. 2320626 NM_198391.1 FLRT3 Homo sapiens 1876.306599 5.521362941 108 fibronectin leucine rich transmembrane protein 3 (FLRT3), transcript variant 2, mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 1080.23198 5.41562384 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 10543 NM_001039582.1 PNCK Homo sapiens MGC45419; 1640.675635 5.316271349 69 pregnancy upregulated CaMK1b; non-ubiquitously BSTK3 expressed CaM kinase (PNCK), mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 452.1553299 5.280440743 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 830491 NM_001077188.1 HS6ST2 Homo sapiens heparan MGC130022; 536.6374788 5.175125686 213 sulfate 6-O- MGC130023 sulfotransferase 2 (HS6ST2), transcript variant L, mRNA. 4250463 NM_000275.1 OCA2 Homo sapiens D15S12; 633.0969543 5.162611074 214 oculocutaneous EYCL3; albinism II (pink-eye PED; P; dilution homolog, BOCA mouse) (OCA2), mRNA. 5720523 NM_000681.2 ADRA2A Homo sapiens ZNF32; 567.8824027 4.983295682 164 adrenergic, alpha-2A-, ALPHA2AAR; receptor (ADRA2A), ADRA2R; mRNA. ADRA2; ADRAR 840324 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 985.0699662 4.972328566 214 10 (CLDN10), OSP-L transcript variant 2, mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 346.5666667 4.954880535 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 14PEND14X P6 4010040 NM_000184.2 HBG2 Homo sapiens 313.7634518 4.211275238 251 hemoglobin, gamma G (HBG2), mRNA. 430088 NM_006487.2 FBLN1 Homo sapiens fibulin FBLN 316.600423 4.041834655 251 1 (FBLN1), transcript variant A, mRNA. 3370452 NM_004877.1 GMFG Homo sapiens glia MGC126867; 628.971066 7.266782539 241 maturation factor, GMF- gamma (GMFG), GAMMA mRNA. 7210136 NM_001770.4 CD19 Homo sapiens CD19 B4; 164.8480541 1.723527702 241 molecule (CD19), MGC12802 mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 8958.460406 52.20534222 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 296.6160745 3.231332733 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 1235.339255 9.503053304 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 5700753 NM_001024912.1 CEACAM1 Homo sapiens BGPI; BGP; 189.4456853 1.8757467 236 carcinoembryonic BGP1 antigen-related cell adhesion molecule 1 (biliary glycoprotein) (CEACAM1), transcript variant 2, mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 696.336379 8.967488935 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 3440068 NM_022469.3 GREM2 Homo sapiens gremlin DAND3; 415.1347716 4.635949325 235 2, cysteine knot PRDC; superfamily, homolog CKTSF1B2 (Xenopus laevis) (GREM2), mRNA. 1980639 NM_030923.3 TMEM163 Homo sapiens SV31; 277.7566836 3.054668594 235 transmembrane DC29; protein 163 DKFZP566N034; (TMEM163), mRNA. DKFZp666J217 4220674 NM_152709.3 STOX1 Homo sapiens PEE4; 247.1394247 2.622790499 234 storkhead box 1 C10orf24 (STOX1), transcript variant 1, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1038.350761 9.223801926 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 5390463 NM_001076778.1 FAM107A Homo sapiens family FLJ30158; 237.4274958 1.720487646 233 with sequence DRR1; similarity 107, TU3A; member A FLJ45473 (FAM107A), transcript variant 2, mRNA. 4120408 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 525.6414552 6.760066797 231 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 3170152 NM_000878.2 IL2RB Homo sapiens CD122; P7075 335.7822335 3.395880134 230 interleukin 2 receptor, beta (IL2RB), mRNA. 4220209 NM_012309.1 SHANK2 Homo sapiens SH3 ProSAP1; 291.9580372 2.668218497 229 and multiple ankyrin CTTNBP1; repeat domains 2 CORTBP1; (SHANK2), transcript SPANK-3; variant 1, mRNA. SHANK 3850112 NM_052960.1 RBP7 Homo sapiens retinol MGC70641; 306.2944162 3.090247686 227 binding protein 7, CRBPIV; cellular (RBP7), CRBP4 mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 4508.640609 6.155086072 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 510687 NM_170697.1 ALDH1A2 Homo sapiens MGC26444; 299.6906091 2.700072881 225 aldehyde RALDH(II); dehydrogenase 1 RALDH2; family, member A2 RALDH2-T (ALDH1A2), transcript variant 3, mRNA. 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 498.1417936 4.834247907 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 4465.328088 6.818235718 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 5290711 NM_004143.2 CITED1 Homo sapiens MSG1 528.443824 5.473851143 222 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy- terminal domain, 1 (CITED1), mRNA. 2760228 NM_001001994.1 GPM6B Homo sapiens MGC54284; 660.5593909 6.510212216 221 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 4, mRNA. 1450358 NM_000519.3 HBD Homo sapiens 270.141286 2.855395504 221 hemoglobin, delta (HBD), mRNA. 4810273 NM_015464.2 SOSTDC1 Homo sapiens CDA019; 1933.582403 17.29690634 219 sclerostin domain USAG1; containing 1 ECTODIN; (SOSTDC1), mRNA. DKFZp564D206 6400358 NM_001766.3 CD1D Homo sapiens CD1d MGC34622; 1065.026058 9.934318891 217 molecule (CD1D), R3; CD1A mRNA. 2690279 NM_173798.2 ZCCHC12 Homo sapiens zinc SIZN; 707.9072758 8.633550582 217 finger, CCHC domain FLJ16123; containing 12 SIZN1 (ZCCHC12), mRNA. 7330639 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 668.3686971 7.66113023 217 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 5720075 NM_003638.1 ITGA8 Homo sapiens 329.7620981 3.642052083 217 integrin, alpha 8 (ITGA8), mRNA. 4590129 NM_006438.2 COLEC10 Homo sapiens MGC118794; 317.2076142 2.295375699 216 collectin sub-family CLL1; member 10 (C-type MGC118795 lectin) (COLEC10), mRNA. 5690301 NM_001704.1 BAI3 Homo sapiens brain- KIAA0550; 302.9328257 2.80249768 213 specific angiogenesis MGC133100 inhibitor 3 (BAI3), mRNA. 1070594 NM_018850.2 ABCB4 Homo sapiens ATP- PGY3; 214.2930626 2.022388164 210 binding cassette, sub- PFIC-3; family B (MDR/TAP), MDR2/3; member 4 (ABCB4), MDR3; transcript variant C, MDR2; mRNA. ABC21; GBD1 2630279 NM_001001995.1 GPM6B Homo sapiens MGC54284; 2439.674788 9.540605397 205 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 6940037 NM_000867.3 HTR2B Homo sapiens 5- 5-HT2B; 5- 304.8783418 2.079311279 205 hydroxytryptamine HT(2B) (serotonin) receptor 2B (HTR2B), mRNA. 7160102 NM_017954.9 CADPS2 Homo sapiens Ca++- KIAA1591; 819.379357 6.295499352 199 dependent secretion FLJ40851 activator 2 (CADPS2), transcript variant 1, mRNA. 3870202 NM_01001995.1 GPM6B Homo sapiens MGC54284; 2486.648393 5.998064449 199 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 620112 NM_001079691.1 N4BP2L1 Homo sapiens CG018 353.541709 3.406839005 198 NEDD4 binding protein 2-like 1 (N4BP2L1), transcript variant 2, mRNA. 7380239 NM_004114.2 FGF13 Homo sapiens FGF2; FHF2 1352.223689 6.591556528 197 fibroblast growth factor 13 (FGF13), transcript variant 1A, mRNA. 460575 NM_080647.1 TBX1 Homo sapiens T-box 1 VCFS; TGA; 268.2879865 1.904340449 197 (TBX1), transcript DORV; variant C, mRNA. CTHM; TBX1C; DGS; CAFS; DGCR 3710253 NM_144691.3 CAPN12 Homo sapiens calpain MGC20576 404.0658206 3.489635797 196 12 (CAPN12), mRNA. 6550133 NM_001079691.1 N4BP2L1 Homo sapiens CG018 337.4719966 3.235131775 196 NEDD4 binding protein 2-like 1 (N4BP2L1), transcript variant 2, mRNA. 630181 NM_006647.1 NOXA1 Homo sapiens MGC131800; 252.3011844 2.035903839 195 NADPH oxidase FLJ25475; activator 1 (NOXA1), SDCCAG31; mRNA. p51NOX; NY-CO-31 5810678 NM_002910.4 RENBP Homo sapiens renin RNBP; RBP 1070.759898 4.915511734 192 binding protein (RENBP), mRNA. 4230750 NM_023067.2 FOXL2 Homo sapiens BPES1; 254.4526227 1.947051692 191 forkhead box L2 PINTO; (FOXL2), mRNA. BPES; PFRK; POF3 5310646 NM_020299.3 AKR1B10 Homo sapiens aldo- ARL-1; 361.3534687 2.790458805 186 keto reductase family AKR1B11; 1, member B10 HSI; (aldose reductase) AKR1B12; (AKR1B10), mRNA. ALDRLn; MGC14103; HIS; ARL1 3840554 NM_014767.1 SPOCK2 Homo sapiens testican-2 565.0042301 3.698112666 179 sparc/osteonectin, cwcv and kazal-like domains proteoglycan (testican) 2 (SPOCK2), mRNA. 2510369 NM_006867.2 RBPMS Homo sapiens RNA HERMES 366.4856176 3.304611272 179 binding protein with multiple splicing (RBPMS), transcript variant 4, mRNA. 14PEND17Z P6 7400280 NM_033069.2 C6orf114 Homo sapiens RP11- 284.8199662 3.970829122 247 chromosome 6 open 501I19.1; reading frame 114 ADG-90; (C6orf114), mRNA. FLJ20330 4210274 NM_002976.2 SCN7A Homo sapiens sodium SCN6A 324.3121827 3.784997675 247 channel, voltage- gated, type VII, alpha (SCN7A), mRNA. 6860762 NM_020204.2 LHX9 Homo sapiens LIM 221.878511 3.038891353 247 homeobox 9 (LHX9), transcript variant 1, mRNA. 670736 NM_002150.2 HPD Homo sapiens 4- 4HPPD; 314.7539763 3.523995488 246 hydroxyphenylpyruvate GLOD3; dioxygenase (HPD), PPD; 4- mRNA. HPPD 6940400 NM_003924.2 PHOX2B Homo sapiens paired- PMX2B; 2477.42132 35.40956947 245 like homeobox 2b NBPhox (PHOX2B), mRNA. 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 338.6403553 4.466916441 245 neurensin 1 (NRSN1), mRNA. 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 269.6680203 3.175088973 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 380.2961929 3.057517379 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 440.9554992 6.576716319 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 1170739 NM_015236.3 LPHN3 Homo sapiens LEC3; 311.1620981 4.228710899 244 latrophilin 3 CIRL3 (LPHN3), mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 2621.940609 38.49345131 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 719.314044 9.309999981 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 477.83511 7.099577237 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 6900196 NM_004975.2 KCNB1 Homo sapiens KV2.1; h- 373.3384095 4.537902853 243 potassium voltage- DRK1; gated channel, Shab- DRK1 related subfamily, member 1 (KCNB1), mRNA. 1660152 NM_001080534.1 UNC13C Homo sapiens unc-13 DKFZp547H074 877.1373942 13.19629982 242 homolog C (C. elegans) (UNC13C), mRNA. 6370315 NM_002125.3 HLA- Homo sapiens major HLA-DRB1 641.5165821 4.660709429 242 DRB5 histocompatibility complex, class II, DR beta 5 (HLA-DRB5), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 428.8714044 3.790378495 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6220332 NM_003044.2 SLC6A12 Homo sapiens solute BGT-1; 269.6680203 2.80365914 240 carrier family 6 BGT1; (neurotransmitter FLJ38727 transporter, betaine/GABA), member 12 (SLC6A12), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 1449.060914 18.91260739 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 948.8686971 12.16433717 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 1010592 NM_001001548.1 CD36 Homo sapiens CD36 GPIV; FAT; 1243.074027 12.92549177 238 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 1, PASIV; GP4 mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 700.2458545 9.729724226 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 1796.867005 9.67180292 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 5130471 NM_000922.2 PDE3B Homo sapiens HcGIP1; 806.7043147 11.36131335 237 phosphodiesterase 3B, cGIPDE1 cGMP-inhibited (PDE3B), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 333.1470389 3.752459802 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 493.3796954 3.19479363 236 chemokine C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 3940292 NM_001482.2 GATM Homo sapiens glycine AT; AGAT 281.8204738 3.07380463 236 amidinotransferase (L- arginine: glycine amidinotransferase) (GATM), nuclear gene encoding mitochondrial protein, mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 523.5020305 6.482099366 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 493.8817259 6.069515232 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 2640348 NM_021146.2 ANGPTL7 Homo sapiens RP4- 1412.57445 6.571285458 234 angiopoietin-like 7 647M16.2; (ANGPTL7), mRNA. dJ647M16.1; AngX; CDT6 4220674 NM_152709.3 STOX1 Homo sapiens PEE4; 349.6734349 4.125825631 234 storkhead box 1 C10orf24 (STOX1), transcript variant 1, mRNA. 3520255 NM_004731.3 SLC16A7 Homo sapiens solute MCT2 326.5969543 3.555242703 234 carrier family 16, member 7 (monocarboxylic acid transporter 2) (SLC16A7), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 322.0407783 3.551198363 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1359.628257 12.38716213 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1990731 NM_006157.2 NELL1 Homo sapiens NEL- FLJ45906; 587.851269 6.119205435 233 like 1 (chicken) IDH3GL; (NELL1), mRNA. NRP1 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 398.2453469 4.531630695 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 673.8399323 8.182223765 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 620349 NM_006180.3 NTRK2 Homo sapiens GP145- 470.8583756 5.477254002 232 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant a, mRNA. 3310538 NM_000072.2 CD36 Homo sapiens CD36 GPIV; FAT; 2198.552961 18.19294729 229 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 3, PASIV; GP4 mRNA. 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 1484.388494 12.19587859 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 3840465 NM_003991.1 EDNRB Homo sapiens ABCDS; 326.9213198 2.735607746 228 endothelin receptor HSCR2; type B (EDNRB), ETRB; transcript variant 2, HSCR; ETB mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 1612.340102 12.35474589 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 364.6739425 3.68346041 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 9463.014721 14.0175387 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 5260484 NM_002124.1 HLA- Homo sapiens major HLA- 835.7881557 5.665449167 225 DRB1 histocompatibility DRB1*; complex, class II, DR HLA-DR1B; beta 1 (HLA-DRB1), HLA DRB1; mRNA. DRB1 7000181 NM_001037317.1 PAP2D Homo sapiens PAP2 488.528511 5.88468091 224 phosphatidic acid phosphatase type 2 (PAP2D), transcript variant 1, mRNA. 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 570.7226734 5.684316806 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 12076.53553 20.14451606 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 14PEND20X P6 1780537 NM_152701.2 ABCA13 Homo sapiens ATP- DKFZp313D2411; 323.0055838 5.357087727 250 binding cassette, sub- FLJ33951; family A (ABC1), FLJ33876; member 13 FLJ16398 (ABCA13), mRNA. 2490551 NM_005604.2 POU3F2 Homo sapiens POU OTF7; 370.4913706 4.261487952 250 class 3 homeobox 2 OCT7; (POU3F2), mRNA. BRN2; POUF3 1050040 NM_004925.3 AQP3 Homo sapiens GIL 311.0724196 3.69052413 248 aquaporin 3 (Gill blood group) (AQP3), mRNA. 1260370 NM_175611.2 GRIK1 Homo sapiens GLUR5; 289.4507614 3.52290451 248 glutamate receptor, EEA3; ionotropic, kainate 1 GLR5; (GRIK1), transcript EAA3 variant 2, mRNA. 1010189 NM_033225.3 CSMD1 Homo sapiens CUB KIAA1890 191.4615905 2.820872145 248 and Sushi multiple domains 1 (CSMD1), mRNA. 6860762 NM_020204.2 LHX9 Homo sapiens LIM 269.1796954 3.899922662 247 homeobox 9 (LHX9), transcript variant 1, mRNA. 6350682 NM_016102.2 TRIM17 Homo sapiens RBCC; terf; 256.5441624 3.303685551 247 tripartite motif- RNF16 containing 17 (TRIM17), transcript variant 1, mRNA. 3180068 NM_013371.2 IL19 Homo sapiens NG.1; IL- 190.142132 2.629654724 247 interleukin 19 (IL19), 10C; transcript variant 2, ZMDA1; mRNA. MDA1 1400053 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 1112.613029 15.26540634 245 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 1194.494755 11.74449578 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 7650168 NM_002942.2 ROBO2 Homo sapiens KIAA1568; 253.7025381 3.197433272 245 roundabout, axon SAX3 guidance receptor, homolog 2 (Drosophila) (ROBO2), mRNA. 6400131 NM_000782.3 CYP24A1 Homo sapiens CYP24; 206.1935702 2.725350393 245 cytochrome P450, P450-CC24; family 24, subfamily MGC126274; A, polypeptide 1 CP24; (CYP24A1), nuclear MGC126273 gene encoding mitochondrial protein, mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 918.8030457 14.78733011 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 7160192 NM_139319.1 SLC17A8 Homo sapiens solute VGLUT3 705.6516074 11.90781339 244 carrier family 17 (sodium-dependent inorganic phosphate cotransporter), member 8 (SLC17A8), mRNA. 6900196 NM_004975.2 KCNB1 Homo sapiens KV2.1; h- 1022.349915 14.16499339 243 potassium voltage- DRK1; gated channel, Shab- DRK1 related subfamily, member 1 (KCNB1), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 760.6098139 9.901896372 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 4570639 NM_003063.2 SLN Homo sapiens MGC12301; 868.8908629 5.60439611 243 sarcolipin (SLN), MGC125854; mRNA. MGC125855 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 4223.607614 46.1765636 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 4810487 NM_018712.2 ELMOD1 Homo sapiens DKEZp547C176 1332.051269 17.50939429 242 ELMO/CED-12 domain containing 1 (ELMOD1), mRNA. 1660152 NM_001080534.1 UNC13C Homo sapiens unc-13 DKEZp547H074 479.4463621 6.759747045 242 homolog C (C. elegans) (UNC13C), mRNA. 6370315 NM_002125.3 HLA- Homo sapiens major HLA-DRB1 597.7241963 4.274287662 242 DRB5 histocompatibility complex, class II, DR beta 5 (HLA-DRB5), mRNA. 6660463 NM_020140.2 ANKS1B Homo sapiens ankyrin MGC26087; 326.001269 3.806471071 242 repeat and sterile ANKS2; alpha motif domain AIDA; containing 1B cajalin-2; (ANKS1B), transcript EB-1; variant 3, mRNA. AIDA-1 6510274 NM_022124.3 CDH23 Homo sapiens DKFZp434P2350; 257.7777496 2.881621105 242 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 1, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 4920075 NM_003245.2 TGM3 Homo sapiens MGC126249; 622.6956007 5.779798736 240 transglutaminase 3 (E TGE; polypeptide, protein- MGC126250 glutamine-gamma- glutamyltransferase) (TGM3), mRNA. 6270022 NM_002110.2 HCK Homo sapiens JTK9 1388.537733 18.74382795 239 hemopoietic cell kinase (HCK), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 297.1455161 3.083294182 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 3390523 NM_001010971.1 SAMD13 Homo sapiens sterile RP11- 242.1697124 2.498659203 239 alpha motif domain 376N17.1 containing 13 (SAMD13), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 5085.8978 29.20574079 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 1710131 NM_172078.1 CAMK2B Homo sapiens CAMKB; 234.6614213 2.900738101 238 calcium/calmodulin- CAM2; dependent protein MGC29528; kinase (CaM kinase) CAMK2 II beta (CAMK2B), transcript variant 2, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 418.2686971 5.038054817 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 291.1939086 3.153983628 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 247.6580372 2.428018276 237 homology 2 domain containing transforming protein D (SHD), mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 920.6203046 6.827262097 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 4860403 NM_002747.3 MAPK4 Homo sapiens Erk4; 206.8522843 2.305901186 236 mitogen-activated p63MAPK; protein kinase 4 ERK3; (MAPK4), mRNA. PRKM4 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 2764.305584 38.50855556 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 348.5341794 3.988983315 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6020224 NM_000507.2 FBP1 Homo sapiens FBP 250.6651438 3.279865206 234 fructose-1,6- bisphosphatase 1 (FBP1), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1071.213113 9.547370984 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1230477 NM_005853.4 IRX5 Homo sapiens IRX-2a 924.7071066 8.927866096 233 iroquois homeobox protein 5 (IRX5), mRNA. 7550358 NM_006159.1 NELL2 Homo sapiens NEL- NRP2 517.2309645 2.722053505 233 like 2 (chicken) (NELL2), mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 1344.380541 17.13253704 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 580187 NM_001029851.1 PDE8B Homo sapiens FLJ11212 554.7313029 5.496016666 232 phosphodiesterase 8B (PDE8B), transcript variant 3, mRNA. 5860093 XM_940314.2 NLF2 PREDICTED: Homo 322.1834179 3.42630665 230 sapiens nuclear localized factor 2 (NLF2), mRNA. 510452 NM_002012.1 FHIT Homo sapiens fragile FRA3B; 251.7199662 2.650291786 230 histidine triad gene AP3Aase (FHIT), mRNA. 2940189 NM_020929.1 LRRC4C Homo sapiens leucine KIAA1580; 273.0175973 2.546513329 230 rich repeat containing NGL1; 4C (LRRC4C), NGL-1 mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 495.3754653 5.042007509 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3310037 NM_005634.2 SOX3 Homo sapiens SRY SOXB; 561.513621 3.485834699 229 (sex determining MRGH region Y)-box 3 (SOX3), mRNA. 360014 NM_052836.1 CDH23 Homo sapiens DKFZp434P2350; 257.0951777 2.527703313 229 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 2, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 14PEND23X P6 4010040 NM_000184.2 HBG2 Homo sapiens 269.1013536 3.469485572 251 hemoglobin, gamma G (HBG2), mRNA. 6380328 NM_198529.2 EFCAB5 Homo sapiens EF- DKFZp686I0638; 155.8787648 1.861978037 248 hand calcium binding FLJ46247; domain 5 (EFCAB5), DKFZp434G2420 mRNA. 6940400 NM_003924.2 PHOX2B Homo sapiens paired- PMX2B; 296.7730964 3.361543426 245 like homeobox 2b NBPhox (PHOX2B), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 155.6969543 1.675262372 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 4010224 NM_199353.1 PRB1 Homo sapiens proline- Ps 1; PMF; 190.9407783 1.731192933 243 rich protein BstNI PRB1L; Ps subfamily 1 (PRB1), 2; PM; PMS; transcript variant 2, PRB1M mRNA. 6370189 NM_006248.2 PRB2 Homo sapiens proline- cP7; Ps; 240.0468697 2.376676938 242 rich protein BstNI PRPPRB1 subfamily 2 (PRB2), mRNA. 3370452 NM_004877.1 GMFG Homo sapiens glia MGC126867; 554.7313029 6.291023858 241 maturation factor, GMF- gamma (GMFG), GAMMA mRNA. 5860075 NM_004345.3 CAMP Homo sapiens HSD26; 205.6200508 2.373239362 241 cathelicidin LL37; antimicrobial peptide FALL39; (CAMP), mRNA. FALL-39; CAP18 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 6656.180372 38.53183231 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 324.8649746 3.634313239 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 199.1903553 1.757141202 237 homology 2 domain containing transforming protein D (SHD), mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 989.5116751 7.412987625 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 5870435 NM_006043.1 HS3ST2 Homo sapiens heparan 3OST2; 244.043824 2.542831047 236 sulfate (glucosamine) 30ST2 3-O-sulfotransferase 2 (HS3ST2), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 584.2120135 7.362519834 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 4220674 NM_152709.3 STOX1 Homo sapiens PEE4; 481.828511 6.063072814 234 storkhead box 1 C10orf24 (STOX1), transcript variant 1, mRNA. 5390463 NM_001076778.1 FAM107A Homo sapiens family FLJ30158; 951.3730118 9.901005872 233 with sequence DRR1; similarity 107, TU3A; member A FLJ45473 (FAM107A), transcript variant 2, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1059.589002 9.432917738 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 403.7604061 4.44577989 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 357.271912 3.86844202 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 4120408 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 808.8181895 10.94061677 231 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 3170152 NM_000878.2 IL2RB Homo sapiens CD122; P70-75 235.0103215 2.076628542 230 interleukin 2 receptor, beta (IL2RB), mRNA. 4220209 NM_012309.1 SHANK2 Homo sapiens SH3 ProSAP1; 204.2963621 1.566819881 229 and multiple ankyrin CTTNBP1; repeat domains 2 CORTBP1; (SHANK2), transcript SPANK-3; variant 1, mRNA. SHANK 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 458.9714044 2.761234796 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 5102.421658 7.097399927 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 511.514044 4.990864005 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 217.462775 1.640738923 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 5565.606091 8.744686051 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 4490333 NM_024581.4 FAM184A Homo sapiens family FLJ13942 262.1167513 1.847581012 223 with sequence similarity 184, member A (FAM184A), transcript variant 1, mRNA. 5290711 NM_004143.2 CITED1 Homo sapiens MSG1 405.5830795 3.968710701 222 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy- terminal domain, 1 (CITED1), mRNA. 2760228 NM_001001994.1 GPM6B Homo sapiens MGC54284; 405.100846 3.605783166 221 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 4, mRNA. 1450358 NM_000519.3 HBD Homo sapiens 233.172335 2.327782975 221 hemoglobin, delta (HBD), mRNA. 4810273 NM_015464.2 SOSTDC1 Homo sapiens CDA019; 2865.606768 26.11637144 219 sclerostin domain USAG1; containing 1 ECTODIN; (SOSTDC1), mRNA. DKFZp564D206 7330639 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 1121.432487 13.53220783 217 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 2690279 NM_173798.2 ZCCHC12 Homo sapiens zinc SIZN; 834.3165821 10.35379063 217 finger, CCHC domain FLJ16123; containing 12 SIZN1 (ZCCHC12), mRNA. 6400358 NM_001766.3 CD1D Homo sapiens CD1d MGC34622; 752.6918782 6.727672919 217 molecule (CD1D), R3; CD1A mRNA. 5720075 NM_003638.1 ITGA8 Homo sapiens 276.5741117 2.893326245 217 integrin, alpha 8 (ITGA8), mRNA. 4040398 NM_022440.1 MAL Homo sapiens mal, T- 1193.45313 2.345562437 216 cell differentiation protein (MAL), transcript variant d, mRNA. 380561 NM_006393.1 NEBL Homo sapiens bA56H7.1; 283.8456007 1.924644406 215 nebulette (NEBL), MGC119746; transcript variant 1, LNEBL; mRNA. MGC119747 630452 NM_005568.2 LHX1 Homo sapiens LIM LIM-1; 259.5757191 1.757318091 215 homeobox 1 (LHX1), LIM1; mRNA. MGC138141; MGC126723 5690301 NM_001704.1 BAI3 Homo sapiens brain- KIAA0550; 573.1351946 6.194153497 213 specific angiogenesis MGC133100 inhibitor 3 (BAI3), mRNA. 4640386 NM_024494.1 WNT2B Homo sapiens WNT13; 342.0128596 2.97194221 213 wingless-type MMTV XWNT2 integration site family, member 2B (WNT2B), transcript variant WNT-2B2, mRNA. 830348 NM_001104.1 ACTN3 Homo sapiens actinin, MGC117002; 394.3165821 2.318724864 208 alpha 3 (ACTN3), MGC117005 mRNA. 2630279 NM_001001995.1 GPM6B Homo sapiens MGC54284; 1635.314044 6.065367942 205 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 2000471 NM_021073.2 BMP5 Homo sapiens bone MGC34244 670.784264 6.188059646 204 morphogenetic protein 5 (BMP5), mRNA. 5810209 NM_080284.2 ABCA6 Homo sapiens ATP- FLJ43498; 264.3340102 1.65136103 200 binding cassette, sub- EST155051 family A (ABC1), member 6 (ABCA6), mRNA. 7160102 NM_017954.9 CADPS2 Homo sapiens Ca++- KIAA1591; 1047.691201 8.328317116 199 dependent secretion FLJ40851 activator 2 (CADPS2), transcript variant 1, mRNA. 3870202 NM_001001995.1 GPM6B Homo sapiens MGC54284; 1569.374619 3.416621491 199 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 620112 NM_001079691.1 N4BP2L1 Homo sapiens CG018 302.4654822 2.770182275 198 NEDD4 binding protein 2-like 1 (N4BP2L1), transcript variant 2, mRNA. 14PEND24X P6 6380328 NM_198529.2 EFCAB5 Homo sapiens EF- DKFZp686I0638; 874.0688663 15.04815063 248 hand calcium binding FLJ46247; domain 5 (EFCAB5), DKFZp434G2420 mRNA. 650669 NM_001025232.1 CLLU1OS Homo sapiens chronic 298.8708122 3.682272662 248 lymphocytic leukemia up-regulated 1 opposite strand (CLLU1OS), mRNA. 2470184 NM_014479.2 ADAMDEC1 Homo sapiens M12.219 356.441709 4.958405482 246 ADAM-like, decysin 1 (ADAMDEC1), mRNA. 4010095 NM_203311.1 CSAG3A Homo sapiens CSAG MGC17065 285.7824873 2.965170936 246 family, member 3A (CSAG3A), mRNA. 6400131 NM_000782.3 CYP24A1 Homo sapiens CYP24; 254.3592217 3.595571168 245 cytochrome P450, P450-CC24; family 24, subfamily MGC126274; A, polypeptide 1 CP24; (CYP24A1), nuclear MGC126273 gene encoding mitochondrial protein, mRNA. 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 30460.03096 145.1865227 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 829.8722504 13.25927703 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 885.4104907 11.69067693 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 6900196 NM_004975.2 KCNB1 Homo sapiens KV2.1; h- 500.2368866 6.420247184 243 potassium voltage- DRK1; gated channel, Shab- DRK1 related subfamily, member 1 (KCNB1), mRNA. 4010224 NM_199353.1 PRB1 Homo sapiens proline- Ps 1; PMF; 273.3172589 2.909495773 243 rich protein BstNI PRB1L; Ps subfamily 1 (PRB1), 2; PM; PMS; transcript variant 2, PRB1M mRNA. 4810487 NM_018712.2 ELMOD1 Homo sapiens DKEZp547C176 400.5093063 4.565239745 242 ELMO/CED-12 domain containing 1 (ELMOD1), mRNA. 6370189 NM_006248.2 PRB2 Homo sapiens proline- cP7; Ps; 377.4169205 4.309025745 242 rich protein BstNI PRPPRB1 subfamily 2 (PRB2), mRNA. 4040286 NM_001184.2 ATR Homo sapiens ataxia SCKL1; 284.2343486 3.022407115 242 telangiectasia and MEC1; Rad3 related (ATR), FRP1; SCKL mRNA. 6660463 NM_020140.2 ANKS1B Homo sapiens ankyrin MGC26087; 225.6940778 2.327570041 242 repeat and sterile ANKS2; alpha motif domain AIDA; containing 1B cajalin-2; (ANKS1B), transcript EB-1; variant 3, mRNA. AIDA-1 4880138 NM_000905.2 NPY Homo sapiens PYY4 5085.8978 43.13558215 241 neuropeptide Y (NPY), mRNA. 1400392 NM_006790.1 MYOT Homo sapiens LGMD1A; 363.1686971 4.418465629 241 myotilin (MYOT), LGMD1; mRNA. TTID 6270022 NM_002110.2 HCK Homo sapiens JTK9 599.1159052 7.518919634 239 hemopoietic cell kinase (HCK), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 6605.236887 38.229273 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 1010592 NM_001001548.1 CD36 Homo sapiens CD36 GPIV; FAT; 1040.994416 10.66170225 238 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 1, PASIV; GP4 mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 799.1094755 10.06106597 237 homology 2 domain containing transforming protein D (SHD), mRNA. 2000292 NM_052863.2 SCGB3A1 Homo sapiens MGC87867; 591.5932318 8.643090782 237 secretoglobin, family PnSP-2; 3A, member 1 HIN1; HIN- (SCGB3A1), mRNA. 1; UGRP2; LU105 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 366.4281726 4.227226892 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 283.4650592 3.092052735 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 274.6204738 2.951679773 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 6380689 NM_004842.2 AKAP7 Homo sapiens A AKAP18 241.7647208 2.655316984 237 kinase (PRKA) anchor protein 7 (AKAP7), transcript variant alpha, mRNA. 5870435 NM_006043.1 HS3ST2 Homo sapiens heparan 3OST2; 1421.217259 19.6320838 236 sulfate (glucosamine) 30ST2 3-O-sulfotransferase 2 (HS3ST2), mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 681.3115059 4.79262015 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 4860403 NM_002747.3 MAPK4 Homo sapiens Erk4; 289.0861252 3.620157653 236 mitogen-activated p63MAPK; protein kinase 4 ERK3; (MAPK4), mRNA. PRKM4 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 654.2714044 8.365363035 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 302.4654822 3.322957049 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 601.7113367 7.503605242 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 5910521 NM_014996.1 PLCH1 Homo sapiens DKFZp434C1372; 310.5576988 3.860094424 234 phospholipase C, eta 1 PLCeta1; (PLCH1), mRNA. PLCL3; MGC117152 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1302.621827 11.82586583 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 284.351269 2.949641146 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 580187 NM_001029851.1 PDE8B Homo sapiens FLJ11212 679.4294416 6.956257297 232 phosphodiesterase 8B (PDE8B), transcript variant 3, mRNA. 150066 NM_006011.3 ST8SIA2 Homo sapiens ST8 MGC116857; 372.3873096 4.195453617 232 alpha-N-acetyl- HsT19690; neuraminide alpha- ST8SIA-II; 2,8-sialyltransferase 2 SIAT8B; (ST8SIA2), mRNA. MGC116854; STX 1010360 NM_001024070.1 GCH1 Homo sapiens GTP DYT5; GTP- 316.4216582 4.026929451 230 cyclohydrolase 1 CH-1; (GCH1), transcript GTPCH1; variant 3, mRNA. GCH 3310538 NM_000072.2 CD36 Homo sapiens CD36 GPIV; FAT; 1115.056007 8.734225894 229 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 3, PASIV; GP4 mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 311.9514382 2.80481688 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 2750154 NM_014800.9 ELMO1 Homo sapiens MGC126406; 294.8979695 3.1756816 228 engulfment and cell CED12; motility 1 (ELMO1), CED-12; transcript variant 1, KIAA0281; mRNA. ELMO-1 2350201 NM_181670.2 ANKS1B Homo sapiens ankyrin MGC26087; 879.8979695 11.7078234 227 repeat and sterile EB-1; alpha motif domain ANKS2; containing 1B AIDA-1; (ANKS1B), transcript AIDA; variant 2, mRNA. cajalin-2 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 698.5147208 7.970934471 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 1094.461421 7.969025829 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 2030445 NM_002025.2 AFF2 Homo sapiens FMR2; 262.3605753 2.45038926 226 AF4/FMR2 family, MRX2; member 2 (AFF2), OX19; mRNA. FRAXE 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 12941.20931 19.53733586 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 1780.868697 19.85757429 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 6330196 NM_002371.2 MAL Homo sapiens mal, T- 1343.049746 8.160066235 224 cell differentiation protein (MAL), transcript variant a, mRNA. 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 352.0490694 4.242487768 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 14PEND2X P6 5550035 NM_178452.3 LRRC50 Homo sapiens leucine DKFZp434A119; 281.2668359 3.469960436 252 rich repeat containing FLJ25330 50 (LRRC50), mRNA. 4210228 NM_000940.1 PON3 Homo sapiens 387.3813875 5.771377998 252 paraoxonase 3 (PON3), mRNA. 1780537 NM_152701.2 ABCA13 Homo sapiens ATP- DKFZp313D2411; 162.742555 2.202943698 250 binding cassette, sub- FLJ33951; family A (ABC1), FLJ33876; member 13 FLJ16398 (ABCA13), mRNA. 1050168 NM_002638.2 PI3 Homo sapiens SKALP; 457.8076142 2.647403708 248 peptidase inhibitor 3, ESI; WAP3; skin-derived (SKALP) WFDC14; (PI3), mRNA. MGC13613 6400131 NM_000782.3 CYP24A1 Homo sapiens CYP24; 415.3350254 6.503960954 245 cytochrome P450, P450-CC24; family 24, subfamily MGC126274; A, polypeptide 1 CP24; (CYP24A1), nuclear MGC126273 gene encoding mitochondrial protein, mRNA. 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 1603.025719 6.693385338 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 6900196 NM_004975.2 KCNB1 Homo sapiens KV2.1; h- 317.1188663 3.703972133 243 potassium voltage- DRK1; gated channel, Shab- DRK1 related subfamily, member 1 (KCNB1), mRNA. 6860736 NM_000260.2 MYO7A Homo sapiens myosin USH1B; 185.2216582 2.03369506 243 VIIA (MYO7A), DFNA11; mRNA. NSRD2; MYU7A; DFNB2 6510274 NM_022124.3 CDH23 Homo sapiens DKFZp434P2350; 352.7102369 4.311115881 242 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 1, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 2970170 NM_007289.1 MME Homo sapiens NEP; 222.9884941 2.111541705 241 membrane metallo- MGC126681; endopeptidase (neutral CD10; endopeptidase, MGC126707; enkephalinase, CALLA CALLA, CD10) (MME), transcript variant 2b, mRNA. 6270022 NM_002110.2 HCK Homo sapiens JTK9 993.442978 13.1259159 239 hemopoietic cell kinase (HCK), mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 1139.82335 14.81358827 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 4860554 NM_033641.1 COL4A6 Homo sapiens MGC88184 194.3451777 2.095551883 239 collagen, type IV, alpha 6 (COL4A6), transcript variant B, mRNA. 3390523 NM_001010971.1 SAMD13 Homo sapiens sterile RP11- 269.2588832 2.890020188 239 alpha motif domain 376N17.1 containing 13 (SAMD13), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 1484.388494 19.39806955 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 682.2215736 3.051793572 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 615.8304569 7.785038284 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 360.872758 4.209496933 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 358.9098139 4.164569969 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 730093 NM_020209.2 SHD Homo sapiens Src 367.9559222 4.093150379 237 homology 2 domain containing transforming protein D (SHD), mRNA. 4860403 NM_002747.3 MAPK4 Homo sapiens Erk4; 671.6402707 9.734115774 236 mitogen-activated p63MAPK; protein kinase 4 ERK3; (MAPK4), mRNA. PRKM4 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 598.3299492 7.551569762 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1123.959052 15.08855972 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 4220674 NM_152709.3 STOX1 Homo sapiens PEE4; 257.8137056 2.779263646 234 storkhead box 1 C10orf24 (STOX1), transcript variant 1, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1881.794247 17.52850921 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 580187 NM_001029851.1 PDE8B Homo sapiens FLJ11212 603.5299492 6.067458765 232 phosphodiesterase 8B (PDE8B), transcript variant 3, mRNA. 150066 NM_006011.3 ST8SIA2 Homo sapiens ST8 MGC116857; 434.1379019 5.056982271 232 alpha-N-acetyl- HsT19690; neuraminide alpha- ST8SIA-II; 2,8-sialyltransferase 2 SIAT8B; (ST8SIA2), mRNA. MGC116854; STX 1010360 NM_001024070.1 GCH1 Homo sapiens GTP DYT5; GTP- 234.7860406 2.730000243 230 cyclohydrolase 1 CH-1; (GCH1), transcript GTPCH1; variant 3, mRNA. GCH 510452 NM_002012.1 FHIT Homo sapiens fragile FRA3B; 325.31489 3.717521176 230 histidine triad gene AP3Aase (FHIT), mRNA. 3310037 NM_005634.2 SOX3 Homo sapiens SRY SOXB; 636.1100677 4.081772744 229 (sex determining MRGH region Y)-box 3 (SOX3), mRNA. 2750154 NM_014800.9 ELMO1 Homo sapiens MGC126406; 405.992132 4.748747195 228 engulfment and cell CED12; motility 1 (ELMO1), CED-12; transcript variant 1, KIAA0281; mRNA. ELMO-1 1850138 NM_001029858.2 SLC35F1 Homo sapiens solute dJ230I3.1; 286.021489 2.510643626 228 carrier family 35, C6orf169; member F1 FLJ13018 (SLC35F1), mRNA. 2030445 NM_002025.2 AFF2 Homo sapiens FMR2; 363.8155668 3.784656853 226 AF4/FMR2 family, MRX2; member 2 (AFF2), OX19; mRNA. FRAXE 5290753 NM_007191.2 WIF1 Homo sapiens WNT WIF-1 344.5483926 3.384810371 225 inhibitory factor 1 (WIF1), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 6175.480203 8.800313713 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 1241.419628 13.53953464 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 307.0633672 2.728795357 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 6650477 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 839.9659052 7.360713685 223 10 (CLDN10), OSP-L transcript variant 2, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 6747.353469 10.81377916 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 5290711 NM_004143.2 CITED1 Homo sapiens MSG1 386.8 3.73860325 222 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy- terminal domain, 1 (CITED1), mRNA. 4150068 NM_005097.1 LGI1 Homo sapiens EPT; 285.4045685 2.902197226 222 leucine-rich, glioma IB1099; inactivated 1 (LGI1), ETL1 mRNA. 1990019 NM_181676.1 PPP2R2B Homo sapiens protein PR2AB- 425.4836717 3.638701943 218 phosphatase 2 BETA; (formerly 2A), PR52B; regulatory subunit B, PR2APR55- beta isoform BETA; (PPP2R2B), transcript PR2AB55- variant 4, mRNA. BETA; MGC24888; PR55- BETA; PP2A- PR55B; SCA12 2370646 NM_173698.1 FAM133A Homo sapiens family RP1-32F7.2; 788.9001692 7.657158909 217 with sequence FLJ37659 similarity 133, member A (FAM133A), mRNA. 1070343 NM_012464.3 TLL1 Homo sapiens tolloid- TLL 698.1584602 8.078011573 217 like 1 (TLL1), mRNA. 4250463 NM_000275.1 OCA2 Homo sapiens D15S12; 554.7313029 4.399794213 214 oculocutaneous EYCL3; albinism II (pink-eye PED; P; dilution homolog, BOCA mouse) (OCA2), mRNA. 840324 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 1460.319628 7.853694588 214 10 (CLDN10), OSP-L transcript variant 2, mRNA. 7000669 NM_003087.1 SNCG Homo sapiens BCSG1; SR 362.6211506 2.944794824 213 synuclein, gamma (breast cancer-specific protein 1) (SNCG), mRNA. 2360164 NM_002260.3 KLRC2 Homo sapiens killer CD159c; 859.998308 7.658976864 209 cell lectin-like NKG2C; receptor subfamily C, MGC138244; member 2 (KLRC2), NKG2-C mRNA. 14SKEL12Z P6 7550056 NM_178138.2 LHX3 Homo sapiens LIM M2-LHX3; 1715.749408 28.92056157 252 homeobox 3 (LHX3), DKFZp762A2013 transcript variant 1, mRNA. 6560440 NM_001007089.2 RESP18 Homo sapiens 1416.78714 23.3987498 252 regulated endocrine- specific protein 18 (RESP18), mRNA. 2360743 NM_173355.2 UPP2 Homo sapiens uridine UPASE2; 427.8104907 6.720641831 250 phosphorylase 2 UDRPASE2; (UPP2), mRNA. UP2 1050040 NM_004925.3 AQP3 Homo sapiens GIL 482.9805415 6.282651052 248 aquaporin 3 (Gill blood group) (AQP3), mRNA. 4010544 NM_001040275.1 ESR2 Homo sapiens ESR-BETA; 283.658714 3.698811776 248 estrogen receptor 2 ESTRB; (ER beta) (ESR2), ESRB; Erb; transcript variant b, ER-BETA; mRNA. NR3A2 1770504 NM_022555.3 HLA- Homo sapiens major MGC117330; 472.3668359 6.504149016 247 DRB3 histocompatibility HLA- complex, class II, DR DR3B beta 3 (HLA-DRB3), mRNA. 4210274 NM_002976.2 SCN7A Homo sapiens sodium SCN6A 432.6501692 5.383448306 247 channel, voltage- gated, type VII, alpha (SCN7A), mRNA. 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 2105.021997 21.45923965 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 650.2043993 9.496720384 245 neurensin 1 (NRSN1), mRNA. 6940400 NM_003924.2 PHOX2B Homo sapiens paired- PMX2B; 338.2059222 3.970463408 245 like homeobox 2b NBPhox (PHOX2B), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 698.7585448 11.00641625 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 3235.903976 47.74138479 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 474.3918782 5.799506135 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 377.5335025 5.39940787 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 6370315 NM_002125.3 HLA- Homo sapiens major HLA-DRB1 1682.866328 13.8495262 242 DRB5 histocompatibility complex, class II, DR beta 5 (HLA-DRB5), mRNA. 1660152 NM_001080534.1 UNC13C Homo sapiens unc-13 DKFZp547H074 693.9843486 10.23200304 242 homolog C (C. elegans) (UNC13C), mRNA. 4880138 NM_000905.2 NPY Homo sapiens PYY4 1080.668528 8.378075704 241 neuropeptide Y (NPY), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 2533.879695 33.81989685 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 1800.997462 23.98653175 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 830687 NM_004067.2 CHN2 Homo sapiens BCH; 311.2939086 4.156162991 239 chimerin (chimaerin) ARHGAP3; 2 (CHN2), transcript RHOGAP3; variant 2, mRNA. MGC138360 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 2063.805584 11.2571823 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 1010592 NM_001001548.1 CD36 Homo sapiens CD36 GPIV; FAT; 968.6395939 9.851149972 238 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 1, PASIV; GP4 mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 290.9576988 3.4582854 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 6040673 NM_004726.2 REPS2 Homo sapiens POB1 309.1473773 3.31580158 238 RALBP1 associated Eps domain containing 2 (REPS2), transcript variant 1, mRNA. 5130471 NM_000922.2 PDE3B Homo sapiens HcGIP1; 881.636379 12.50951438 237 phosphodiesterase 3B, cGIPDE1 cGMP-inhibited (PDE3B), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 294.8572758 3.206242851 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 2600465 NM_003026.1 SH3GL2 Homo sapiens SH3- CNSA2; 835.2967851 9.345269638 235 domain GRB2-like 2 SH3P4; (SH3GL2), mRNA. SH3D2A; EEN-B1; FLJ25015; FLJ20276 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 553.6543147 6.925111228 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 5550414 NM_019845.2 RPRM Homo sapiens FLJ90327; 964.7199662 6.019069947 234 reprimo, TP53 REPRIMO dependent G2 arrest mediator candidate (RPRM), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 372.5032149 4.26435202 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 460010 NM_004615.2 TSPAN7 Homo sapiens TM4SF2; 1098.523942 11.51349763 233 tetraspanin 7 MRX58; (TSPAN7), mRNA. MXS1; DXS1692E; CD231; CCG-B7; TALLA-1; A15; TM4SF2b 3190246 NM_004067.2 CHN2 Homo sapiens BCH; 718.3005076 9.696513205 233 chimerin (chimaerin) ARHGAP3; 2 (CHN2), transcript RHOGAP3; variant 2, mRNA. MGC138360 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 718.3005076 8.97719915 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 993.442978 8.781631227 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 4200725 NR_001298.1 HLA- Homo sapiens major 910.5795262 9.069933352 232 DRB6 histocompatibility complex, class II, DR beta 6 (pseudogene) (HLA-DRB6), non- coding RNA. 620349 NM_006180.3 NTRK2 Homo sapiens GP145- 391.6777496 4.38802409 232 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant a, mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 313.5815567 3.273086061 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 5860093 XM_940314.2 NLF2 PREDICTED: Homo 360.5552453 3.953476782 230 sapiens nuclear localized factor 2 (NLF2), mRNA. 3310538 NM_000072.2 CD36 Homo sapiens CD36 GPIV; FAT; 1493.647208 12.03925475 229 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 3, PASIV; GP4 mRNA. 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 2332.756684 19.73768026 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 3840465 NM_003991.1 EDNRB Homo sapiens ABCDS; 418.4676819 3.781673814 228 endothelin receptor HSCR2; type B (EDNRB), ETRB; transcript variant 2, HSCR; ETB mRNA. 2750154 NM_014800.9 ELMO1 Homo sapiens MGC126406; 335.9739425 3.757307118 228 engulfment and cell CED12; motility 1 (ELMO1), CED-12; transcript variant 1, KIAA0281; mRNA. ELMO-1 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 3018.60846 24.00263368 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 1053.866328 7.636352213 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 469.9600677 5.035636538 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 5260484 NM_002124.1 HLA- Homo sapiens major HLA- 2762.059052 21.02754859 225 DRB1 histocompatibility DRB1*; complex, class II, DR HLA-DR1B; beta 1 (HLA-DRB1), HLA DRB1; mRNA. DRB1 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 13222.53147 19.98378624 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 5360301 NM_018640.3 LMO3 Homo sapiens LIM RHOM3; 431.6473773 3.570645215 225 domain only 3 Rhom-3; (rhombotin-like 2) RBTNL2; (LMO3), transcript RBTN3; variant 1, mRNA. DAT1; MGC26081 14SKEL14Z P6 4390403 NM_004042.3 ARSF Homo sapiens ASF 272.7984772 4.107960639 251 arylsulfatase F (ARSF), mRNA. 7200753 NM_016562.3 TLR7 Homo sapiens toll-like 293.7142132 4.289026084 250 receptor 7 (TLR7), mRNA. 6380328 NM_198529.2 EFCAB5 Homo sapiens EF- DKFZp686I0638; 345.2602369 5.339075217 248 hand calcium binding FLJ46247; domain 5 (EFCAB5), DKFZp434G2420 mRNA. 5270619 NM_033086.2 FGD3 Homo sapiens FYVE, MGC117260; 2567.253299 36.84135495 247 RhoGEF and PH FLJ00004; domain containing 3 ZFYVE5 (FGD3), transcript variant 2, mRNA. 1400053 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 2049.811168 28.96640405 245 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 1207.042301 18.4861578 245 neurensin 1 (NRSN1), mRNA. 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 779.2021151 11.06386339 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 670707 NM_182532.1 TMEM61 Homo sapiens 422.2224196 5.791838821 245 transmembrane protein 61 (TMEM61), mRNA. 1170739 NM_015236.3 LPHN3 Homo sapiens LEC3; 196.6147208 2.303877753 244 latrophilin 3 CIRL3 (LPHN3), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 706.0241963 10.9675122 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 409.9824873 5.175434846 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 6826.28308 75.24775009 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 2370056 NM_199296.1 THSD3 Homo sapiens TAIL1; 338.0033841 4.087053364 242 thrombospondin, type MGC119416; I, domain containing 3 DKFZp686E0215; (THSD3), transcript FLJ32147 variant 1, mRNA. 6370315 NM_002125.3 HLA- Homo sapiens major HLA-DRB1 453.5716582 3.002293057 242 DRB5 histocompatibility complex, class II, DR beta 5 (HLA-DRB5), mRNA. 4880138 NM_000905.2 NPY Homo sapiens PYY4 1426.187479 11.3765001 241 neuropeptide Y (NPY), mRNA. 1400392 NM_006790.1 MYOT Homo sapiens LGMD1A; 269.7420474 3.02454293 241 myotilin (MYOT), LGMD1; mRNA. TTID 2850075 NM_052846.1 EMILIN3 Homo sapiens elastin DKFZp434A2410; 568.5527919 7.086278387 239 microfibril interfacer dJ620E11.4; 3 (EMILIN3), mRNA. C20orf130; EMILIN5 1170048 NM_001364.2 DLG2 Homo sapiens discs, PSD-93; 264.0153976 3.025665964 239 large homolog 2, DKFZp781E0954; chapsyn-110 FLJ37266; (Drosophila) (DLG2), MGC131811; mRNA. DKFZp781D1854 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 270.3671743 2.715313374 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 4647.176311 26.60012265 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 308.6822335 3.729874826 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 288.6207276 3.153137876 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 237.8099831 2.392443135 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 231.4650592 2.341389698 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 1892.78731 15.09278254 236 chemokine (C—X—C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 5700753 NM_001024912.1 CEACAM1 Homo sapiens BGPI; BGP; 244.5307107 2.711926103 236 carcinoembryonic BGP1 antigen-related cell adhesion molecule 1 (biliary glycoprotein) (CEACAM1), transcript variant 2, mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 313.7634518 3.491268628 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 575.5480541 6.994366558 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 588.1519459 4.791057531 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 253.8345178 2.423631667 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 240592 NM_001094.4 ACCN1 Homo sapiens BNC1; 289.3739425 2.680376114 231 amiloride-sensitive hBNaC1; cation channel 1, MDEG; neuronal (ACCN1), BNaC1; transcript variant 2, ASIC2a; mRNA. ACCN; ASIC2 1010360 NM_001024070.1 GCH1 Homo sapiens GTP DYT5; GTP- 206.8774112 2.286621266 230 cyclohydrolase 1 CH-1; (GCH1), transcript GTPCH1; variant 3, mRNA. GCH 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 976.4761421 10.90990793 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 526.958291 3.684540237 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 3840465 NM_003991.1 EDNRB Homo sapiens ABCDS; 288.1918782 2.293060891 228 endothelin receptor HSCR2; type B (EDNRB), ETRB; transcript variant 2, HSCR; ETB mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 582.5891709 3.825489565 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 2320369 NM_015063.1 SLC8A2 Homo sapiens solute NCX2 596.0085448 3.884243454 226 carrier family 8 (sodium/calcium exchanger), member 2 (SLC8A2), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 14012.64179 21.23766914 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 870524 NM_024016.3 HOXB8 Homo sapiens Hox-2.4; 2523.421997 13.98125023 225 homeobox B8 HOX2; (HOXB8), mRNA. HOX2D 5260484 NM_002124.1 HLA- Homo sapiens major HLA- 610.6073604 3.869621918 225 DRB1 histocompatibility DRB1*; complex, class II, DR HLA-DR1B; beta 1 (HLA-DRB1), HLA DRB1; mRNA. DRB1 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 498.4685279 6.422871945 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 393.0116751 3.772500617 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 13697.71506 22.98300036 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 6650477 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 871.7714044 7.677294001 223 10 (CLDN10), OSP-L transcript variant 2, mRNA. 5290711 NM_004143.2 CITED1 Homo sapiens MSG1 280.2225888 2.432946407 222 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy- terminal domain, 1 (CITED1), mRNA. 2760228 NM_001001994.1 GPM6B Homo sapiens MGC54284; 501.0681895 4.696881295 221 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 4, mRNA. 2450307 NM_000325.5 PITX2 Homo sapiens paired- MGC111022; 445.4820643 4.071059972 221 like homeodomain 2 IGDS; RS; (PITX2), transcript IDG2; variant 3, mRNA. RIEG; PTX2; IGDS2; Brx1; ARP1; RIEG1; IHG2; IRID2; RGS; Otlx2; MGC20144 6250349 NM_182826.1 SCARA3 Homo sapiens APC7; 433.1906937 2.811591852 221 scavenger receptor MSLR1; class A, member 3 MSRL1; (SCARA3), transcript CSR; CSR1 variant 2, mRNA. 14SKEL15Z P6 2230241 NM_000129.3 F13A1 Homo sapiens F13A 440.5475465 6.112055101 250 coagulation factor XIII, A1 polypeptide (F13A1), mRNA. 6860762 NM_020204.2 LHX9 Homo sapiens LIM 459.7507614 7.368919399 247 homeobox 9 (LHX9), transcript variant 1, mRNA. 5270619 NM_033086.2 FGD3 Homo sapiens FYVE, MGC117260; 344.2062606 4.07360582 247 RhoGEF and PH FLJ00004; domain containing 3 ZFYVE5 (FGD3), transcript variant 2, mRNA. 6940400 NM_003924.2 PHOX2B Homo sapiens paired- PMX2B; 2197.065821 31.28930823 245 like homeobox 2b NBPhox (PHOX2B), mRNA. 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 988.8883249 14.31029425 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 1400053 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 518.7756345 6.58403531 245 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 266.6759729 3.305143312 245 neurensin 1 (NRSN1), mRNA. 1170739 NM_015236.3 LPHN3 Homo sapiens LEC3; 250.6325719 3.211583828 244 latrophilin 3 CIRL3 (LPHN3), mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 861.2979695 11.97345535 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 252.8263113 3.28554996 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 220.2191201 2.156422627 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 1784.910998 18.93697685 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 1400392 NM_006790.1 MYOT Homo sapiens LGMD1A; 456.4598985 5.810367443 241 myotilin (MYOT), LGMD1; mRNA. TTID 4880138 NM_000905.2 NPY Homo sapiens PYY4 421.7678511 2.660114767 241 neuropeptide Y (NPY), mRNA. 2850075 NM_052846.1 EMILIN3 Homo sapiens elastin DKFZp434A2410; 810.0241963 10.52062085 239 microfibril interfacer dJ620E11.4; 3 (EMILIN3), mRNA. C20orf130; EMILIN5 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 285.7054992 2.92608853 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 254.1605753 2.526152268 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 3219.130795 18.11879361 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 1010592 NM_001001548.1 CD36 Homo sapiens CD36 GPIV; FAT; 635.4603215 6.118721239 238 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 1, PASIV; GP4 mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 305.8598985 3.686628763 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 339.2258037 3.839175522 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 262.4681049 2.776812001 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 4686.629611 38.84647974 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 548.1777496 6.846718652 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 342.5005076 3.895153565 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 252.2692047 2.565160902 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1118.943824 10.01733677 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 258.298308 2.587765331 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 958.858714 12.06609307 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 7040497 NM_001179.3 ART3 Homo sapiens ADP- 1167.680711 10.78026278 232 ribosyltransferase 3 (ART3), mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 271.7681895 2.665514793 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 3310538 NM_000072.2 CD36 Homo sapiens CD36 GPIV; FAT; 993.442978 7.672567389 229 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 3, PASIV; GP4 mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 404.4903553 3.933497792 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 597.5196277 4.31181459 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 3840465 NM_003991.1 EDNRB Homo sapiens ABCDS; 289.7688663 2.311080545 228 endothelin receptor HSCR2; type B (EDNRB), ETRB; transcript variant 2, HSCR; ETB mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 599.1159052 3.962377767 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 7210180 NM_012281.2 KCND2 Homo sapiens KV4.2; 310.3406091 3.197940639 226 potassium voltage- MGC119703; gated channel, Shal- RK5; related subfamily, KIAA1044; member 2 (KCND2), MGC119702 mRNA. 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 325.6401015 3.182153825 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 2030445 NM_002025.2 AFF2 Homo sapiens FMR2; 271.2492386 2.567286962 226 AF4/FMR2 family, MRX2; member 2 (AFF2), OX19; mRNA. FRAXE 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 7959.854484 11.6320656 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 870524 NM_024016.3 HOXB8 Homo sapiens Hox-2.4; 1165.569543 5.91984496 225 homeobox B8 HOX2; (HOXB8), mRNA. HOX2D 5360301 NM_018640.3 LMO3 Homo sapiens LIM RHOM3; 363.6567682 2.850703502 225 domain only 3 Rhom-3; (rhombotin-like 2) RBTNL2; (LMO3), transcript RBTN3; variant 1, mRNA. DAT1; MGC26081 5260484 NM_002124.1 HLA- Homo sapiens major HLA- 451.157022 2.5979981 225 DRB1 histocompatibility DRB1*; complex, class II, DR HLA-DR1B; beta 1 (HLA-DRB1), HLA DRB1; mRNA. DRB1 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 366.9722504 4.464714159 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 3930546 NM_001001290.1 SLC2A9 Homo sapiens solute GLUTX; 463.7666667 4.431645646 224 carrier family 2 GLUT9 (facilitated glucose transporter), member 9 (SLC2A9), transcript variant 2, mRNA. 7000181 NM_001037317.1 PAP2D Homo sapiens PAP2 277.1762267 2.906158666 224 phosphatidic acid phosphatase type 2 (PAP2D), transcript variant 1, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 9294.629103 15.27374289 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 6650477 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 1256.821151 11.50993847 223 10 (CLDN10), OSP-L transcript variant 2, mRNA. 14SKEL18X P6 2480040 NM_001010925.2 ANKRD19 Homo sapiens ankyrin FLJ36178; 359.6522843 5.188399301 251 repeat domain 19 bA526D8.2 (ANKRD19), mRNA. 5820402 NM_182801.1 EGFLAM Homo sapiens EGF- AGRINL; 533.0456853 6.541888158 250 like, fibronectin type AGRNL; III and laminin G FLJ39155 domains (EGFLAM), transcript variant 4, mRNA. 1260370 NM_175611.2 GRIK1 Homo sapiens GLUR5; 199.6889171 2.120302394 248 glutamate receptor, EEA3; ionotropic, kainate 1 GLR5; (GRIK1), transcript EAA3 variant 2, mRNA. 1170739 NM_015236.3 LPHN3 Homo sapiens LEC3; 202.4005922 2.401102476 244 latrophilin 3 CIRL3 (LPHN3), mRNA. 2120064 NM_130808.1 CPNE4 Homo sapiens copine MGC15604; 980.1950085 15.17169906 243 IV (CPNE4), mRNA. COPN4; CPN4 3450544 NM_138569.2 C6orf142 Homo sapiens MGC18257 546.9849408 8.36846251 243 chromosome 6 open reading frame 142 (C6orf142), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 332.3773266 4.633984971 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 4900731 NM_002118.3 HLA- Homo sapiens major D6S221E; 669.7582064 7.661512105 241 DMB histocompatibility RING7 complex, class II, DM beta (HLA-DMB), mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 3485.537394 19.70101351 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 321.4711506 3.925836791 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 5484.610152 45.63103882 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 346.9730964 3.966637682 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 4220674 NM_152709.3 STOX1 Homo sapiens PEE4; 620.9840102 8.102938452 234 storkhead box 1 C10orf24 (STOX1), transcript variant 1, mRNA. 5390463 NM_001076778.1 FAM107A Homo sapiens family FLJ30158; 1172.72775 12.43732892 233 with sequence DRR1; similarity 107, TU3A; member A FLJ45473 (FAM107A), transcript variant 2, mRNA. 4060100 NM_006063.2 KBTBD10 Homo sapiens kelch SARCOSIN 746.1352792 7.630117274 233 repeat and BTB (POZ) domain containing 10 (KBTBD10), mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 703.8910321 5.930646904 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 6200333 NM_021977.2 SLC22A3 Homo sapiens solute EMT; 496.9555838 5.902716586 233 carrier family 22 OCT3; (extraneuronal EMTH monoamine transporter), member 3 (SLC22A3), mRNA. 4890292 NM_173485.4 TSHZ2 Homo sapiens teashirt C20orf17; 449.3137056 3.151526978 233 zinc finger homeobox OVC10-2; 2 (TSHZ2), mRNA. TSH2; ZNF218; FLJ33887; DKFZp686K2480; ZABC2 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 1038.350761 13.00491383 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 407.8927242 4.558237329 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 4120408 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 276.1617597 3.076987614 231 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 3310037 NM_005634.2 SOX3 Homo sapiens SRY SOXB; 523.942132 3.185682606 229 (sex determining MRGH region Y)-box 3 (SOX3), mRNA. 3460474 NM_001672.2 ASIP Homo sapiens agouti ASP; 298.8708122 3.121804793 229 signaling protein, MGC126092; nonagouti homolog SHEP9; (mouse) (ASIP), AGTIL; mRNA. MGC126093; AGSW; AGTI 3180615 NM_001001552.3 LEMD1 Homo sapiens LEM LEMP-1 246.1758037 2.288059176 228 domain containing 1 (LEMD1), mRNA. 4810482 NM_002547.1 OPHN1 Homo sapiens OPN1; 265.1473773 2.256012172 227 oligophrenin 1 MRX60 (OPHN1), mRNA. 5860088 NM_018647.2 TNFRSF19 Homo sapiens tumor TAJ; TAJ- 491.405753 6.185357859 226 necrosis factor alpha; receptor superfamily, TRADE; member 19 TROY (TNFRSF19), transcript variant 1, mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 9603.588832 14.24062587 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 291.1939086 3.336271949 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 268.001692 2.254453549 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 8934.08731 14.64247892 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 2760228 NM_001001994.1 GPM6B Homo sapiens MGC54284; 1369.750931 14.57334634 221 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 4, mRNA. 3130110 NM_153355.2 TCBA1 Homo sapiens T-cell FAM77B; 351.7424704 4.463403314 220 lymphoma breakpoint MGC41924 associated target 1 (TCBA1), mRNA. 4180289 NM_001538.2 HSF4 Homo sapiens heat CTM 318.9629442 3.015795147 219 shock transcription factor 4 (HSF4), transcript variant 1, mRNA. 4890274 NM_001040667.1 HSF4 Homo sapiens heat CTM 301.9978003 2.750469569 219 shock transcription factor 4 (HSF4), transcript variant 2, mRNA. 2320373 NM_006928.3 SILV Homo sapiens silver PMEL17; 8583.009475 35.8241112 217 homolog (mouse) D12S53E; (SILV), mRNA. SIL; SI; ME20; gp100 7330639 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 378.2843486 3.902039879 217 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 5690301 NM_001704.1 BAI3 Homo sapiens brain- KIAA0550; 2264.844839 27.4289668 213 specific angiogenesis MGC133100 inhibitor 3 (BAI3), mRNA. 2260424 NM_006727.2 CDH10 Homo sapiens 737.2966159 6.321713796 213 cadherin 10, type 2 (T2-cadherin) (CDH10), mRNA. 2370438 NM_000014.4 A2M Homo sapiens alpha- alpha 2M; 430.47022 2.947254375 212 2-macroglobulin CPAMD5; (A2M), mRNA. S863-7; FWP007; DKFZp779B086 6420050 NM_002523.1 NPTX2 Homo sapiens NARP; NP- 605.2751269 1.942645888 210 neuronal pentraxin II II; NP2 (NPTX2), mRNA. 830348 NM_001104.1 ACTN3 Homo sapiens actinin, MGC117002; 433.5448393 2.648885447 208 alpha 3 (ACTN3), MGC117005 mRNA. 2630279 NM_001001995.1 GPM6B Homo sapiens MGC54284; 4741.316582 19.48483978 205 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 3850059 NM_005574.2 LMO2 Homo sapiens LIM TTG2; 4977.640102 34.52136268 204 domain only 2 RBTN2; (rhombotin-like 1) RBTNL1; (LMO2), mRNA. RHOM2 2030026 NM_007029.2 STMN2 Homo sapiens SCG10; 1060.256007 3.899915903 204 stathmin-like 2 SCGN10; (STMN2), mRNA. SGC10 270114 NM_001034850.1 FAM134B Homo sapiens family FLJ22155; 324.0881557 3.396395642 202 with sequence FLJ20152; similarity 134, FLJ22179 member B (FAM134B), transcript variant 1, mRNA. 3870202 NM_001001995.1 GPM6B Homo sapiens MGC54284; 3927.222843 10.05220933 199 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 1, mRNA. 7160102 NM_017954.9 CADPS2 Homo sapiens Ca++- KIAA1591; 893.6523689 6.956803185 199 dependent secretion FLJ40851 activator 2 (CADPS2), transcript variant 1, mRNA. 1430521 NM_053276.2 VIT Homo sapiens vitrin MGC70561; 310.6416244 2.046705424 198 (VIT), mRNA. DKFZp313L1517; MGC149746 14SKEL20Z P6 2640315 NM_004245.2 TGM5 Homo sapiens MGC141907; 322.4014382 4.527626051 251 transglutaminase 5 TGM6; (TGM5), transcript TGMX; variant 2, mRNA. TGX 4390403 NM_004042.3 ARSF Homo sapiens ASF 252.3662437 3.725381361 251 arylsulfatase F (ARSF), mRNA. 2230241 NM_000129.3 F13A1 Homo sapiens F13A 264.7620135 3.27423111 250 coagulation factor XIII, A1 polypeptide (F13A1), mRNA. 2350730 NM_000735.2 CGA Homo sapiens GPHa; 289.5708968 3.124125522 248 glycoprotein TSHA; hormones, alpha FSHA; polypeptide (CGA), LHA; HCG; mRNA. GPHA1; CG-ALPHA 5270619 NM_033086.2 FGD3 Homo sapiens FYVE, MGC117260; 2125.546531 30.33059008 247 RhoGEF and PH FLJ00004; domain containing 3 ZFYVE5 (FGD3), transcript variant 2, mRNA. 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 2742.191709 43.26918618 245 neurensin 1 (NRSN1), mRNA. 670707 NM_182532.1 TMEM61 Homo sapiens 426.8898477 5.866918726 245 transmembrane protein 61 (TMEM61), mRNA. 1400053 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 417.9384095 5.109885361 245 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 1170739 NM_015236.3 LPHN3 Homo sapiens LEC3; 214.8902707 2.610976746 244 latrophilin 3 CIRL3 (LPHN3), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 343.4598139 4.821839443 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 377.1337563 4.680644936 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 1558.146531 16.40407861 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 1660152 NM_001080534.1 UNC13C Homo sapiens unc-13 DKFZp547H074 288.2288494 3.664928424 242 homolog C (C. elegans) (UNC13C), mRNA. 2370056 NM_199296.1 THSD3 Homo sapiens TAIL1; 241.4720812 2.634228001 242 thrombospondin, type MGC119416; I, domain containing 3 DKFZp686E0215; (THSD3), transcript FLJ32147 variant 1, mRNA. 2120670 NM_203339.1 CLU Homo sapiens SP-40; 194.7063452 2.075885335 242 clusterin (CLU), MGC24903; transcript variant 2, CLI; APOJ; mRNA. SGP-2; TRPM-2; AAG4; TRPM2; KUB1; SGP2 4880138 NM_000905.2 NPY Homo sapiens PYY4 1119.913029 8.718640725 241 neuropeptide Y (NPY), mRNA. 5860075 NM_004345.3 CAMP Homo sapiens HSD26; 188.0182741 2.084478584 241 cathelicidin LL37; antimicrobial peptide FALL39; (CAMP), mRNA. FALL-39; CAP18 2850075 NM_052846.1 EMILIN3 Homo sapiens elastin DKFZp434A2410; 330.1922166 3.696179884 239 microfibril interfacer dJ620E11.4; 3 (EMILIN3), mRNA. C20orf130; EMILIN5 1170048 NM_001364.2 DLG2 Homo sapiens discs, PSD-93; 262.294247 2.999422126 239 large homolog 2, DKFZp781E0954; chapsyn-110 FLJ37266; (Drosophila) (DLG2), MGC131811; mRNA. DKFZp781D1854 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 5007.687986 28.74124358 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 281.5400169 3.313980184 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 1010592 NM_001001548.1 CD36 Homo sapiens CD36 GPIV; FAT; 307.7571912 2.447638789 238 molecule GP3B; (thrombospondin CHDS7; receptor) (CD36), SCARB3; transcript variant 1, PASIV; GP4 mRNA. 6040673 NM_004726.2 REPS2 Homo sapiens POB1 213.0592217 1.974378542 238 RALBP1 associated Eps domain containing 2 (REPS2), transcript variant 1, mRNA. 1820315 NM_178497.2 C4orf26 Homo sapiens FLJ23657 590.8124365 7.871936118 237 chromosome 4 open reading frame 26 (C4orf26), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 275.4266497 2.929058129 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 261.0450931 2.768401968 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 223.508714 2.216201808 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 1855.520812 14.77593678 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 5700753 NM_001024912.1 CEACAM1 Homo sapiens BGPI; BGP; 321.3001692 3.87727076 236 carcinoembryonic BGP1 antigen-related cell adhesion molecule 1 (biliary glycoprotein) (CEACAM1), transcript variant 2, mRNA. 5570170 NM_002686.2 PNMT Homo sapiens PENT 291.4395939 2.965819489 236 phenylethanolamine N-methyltransferase (PNMT), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 392.9013536 4.624063331 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 5290707 NM_004917.3 KLK4 Homo sapiens PSTS; 1017.200508 4.866990617 234 kallikrein-related MGC116827; peptidase 4 (KLK4), KLK-L1; mRNA. ARM1; PRSS17; MGC116828; EMSP; EMSP1 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 850.9565144 7.378682016 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 227.3607445 2.066562624 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 1010360 NM_001024070.1 GCH1 Homo sapiens GTP DYT5; GTP- 275.8187817 3.381879435 230 cyclohydrolase 1 CH-1; (GCH1), transcript GTPCH1; variant 3, mRNA. GCH 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 731.4600677 7.921489922 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 290445 NM_022144.1 TNMD Homo sapiens tendin; 434.3483926 3.253058383 229 tenomodulin CHM1L; (TNMD), mRNA. BRICD4; myodulin; TEM; CHM1-LIKE 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 425.414044 2.781834807 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 462.4351946 2.830274089 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 7939.72758 11.60012477 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 870524 NM_024016.3 HOXB8 Homo sapiens Hox-2.4; 1959.584433 10.63381502 225 homeobox B8 HOX2; (HOXB8), mRNA. HOX2D 940630 NM_024761.3 MOBKL2B Homo sapiens MOB1, FLJ13204; 427.8771574 4.195886349 224 Mps One Binder FLJ23916; kinase activator-like MOB3B; 2B (yeast) MGC32960 (MOBKL2B), mRNA. 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 293.2337563 3.366648046 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 8719.425381 14.26663251 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 6650477 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 827.6888325 7.238512189 223 10 (CLDN10), OSP-L transcript variant 2, mRNA. 2450307 NM_000325.5 PITX2 Homo sapiens paired- MGC111022; 463.842555 4.280063111 221 like homeodomain 2 IGDS; RS; (PITX2), transcript IDG2; variant 3, mRNA. RIEG; PTX2; IGDS2; Brx1; ARP1; RIEG1; IHG2; IRID2; RGS; Otlx2; MGC20144 6250349 NM_182826.1 SCARA3 Homo sapiens APC7; 462.7282572 3.071489254 221 scavenger receptor MSLR1; class A, member 3 MSRL1; (SCARA3), transcript CSR; CSR1 variant 2, mRNA. 6480593 NM_020809.2 ARHGAP20 Homo sapiens Rho KIAA1391; 302.63511 2.853079344 219 GTPase activating RARHOGAP protein 20 (ARHGAP20), mRNA. 14SKEL24Z P6 1770504 NM_022555.3 HLA- Homo sapiens major MGC117330; 277.680203 3.411303809 247 DRB3 histocompatibility HLA- complex, class II, DR DR3B beta 3 (HLA-DRB3), mRNA. 1400053 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 1422.990948 19.80285363 245 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6940400 NM_003924.2 PHOX2B Homo sapiens paired- PMX2B; 1270.518274 17.67224722 245 like homeobox 2b NBPhox (PHOX2B), mRNA. 6420113 NM_080723.3 NRSN1 Homo sapiens p24; VMP 348.634687 4.628262173 245 neurensin 1 (NRSN1), mRNA. 2640068 NM_002934.2 RNASE2 Homo sapiens EDN; RNS2 311.5109983 3.822915719 245 ribonuclease, RNase A family, 2 (liver, eosinophil-derived neurotoxin) (RNASE2), mRNA. 670707 NM_182532.1 TMEM61 Homo sapiens 230.0771574 2.701004249 245 transmembrane protein 61 (TMEM61), mRNA. 1010097 NM_021815.2 SLC5A7 Homo sapiens solute MGC126299; 381.1639594 5.549348396 244 carrier family 5 MGC126300; (choline transporter), CHT1; member 7 (SLC5A7), hCHT; CHT mRNA. 2230088 NM_213609.2 FAM19A1 Homo sapiens family TAFA-1; 797.6087986 11.01412578 243 with sequence TAFA1 similarity 19 (chemokine (C-C motif)-like), member A1 (FAM19A1), mRNA. 4760626 NM_002426.2 MMP12 Homo sapiens matrix MGC138506; 677.6341794 10.48628525 243 metallopeptidase 12 MME; (macrophage elastase) HME (MMP12), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 664.0813875 8.518344803 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 160500 NM_001012513.1 GRP Homo sapiens gastrin- proGRP; 4490.035702 49.15249384 242 releasing peptide GRP-10; (GRP), transcript BN; variant 3, mRNA. preproGRP 6370315 NM_002125.3 HLA- Homo sapiens major HLA-DRB1 837.2664975 6.387996646 242 DRB5 histocompatibility complex, class II, DR beta 5 (HLA-DRB5), mRNA. 1660152 NM_001080534.1 UNC13C Homo sapiens unc-13 DKFZp547H074 326.5530457 4.285198161 242 homolog C (C. elegans) (UNC13C), mRNA. 1400392 NM_006790.1 MYOT Homo sapiens LGMD1A; 364.8820643 4.444029014 241 myotilin (MYOT), LGMD1; mRNA. TTID 4880138 NM_000905.2 NPY Homo sapiens PYY4 622.9119289 4.405649444 241 neuropeptide Y (NPY), mRNA. 840017 NM_206819.1 MYBPC1 Homo sapiens myosin slow-type; 519.6189509 6.140464602 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 2, mRNA. 6270022 NM_002110.2 HCK Homo sapiens JTK9 485.8601523 5.90851896 239 hemopoietic cell kinase (HCK), mRNA. 5910056 NM_206821.1 MYBPC1 Homo sapiens myosin slow-type; 364.4626058 4.056451585 239 binding protein C, MYBPCS; slow type (MYBPC1), MYBPCC transcript variant 4, mRNA. 1170048 NM_001364.2 DLG2 Homo sapiens discs, PSD-93; 320.407868 3.885529634 239 large homolog 2, DKFZp781E0954; chapsyn-110 FLJ37266; (Drosophila) (DLG2), MGC131811; mRNA. DKFZp781D1854 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 3226.681387 18.16363746 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6620369 NM_015236.3 LPHN3 Homo sapiens LEC3; 337.6656514 4.17398182 238 latrophilin 3 CIRL3 (LPHN3), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 518.1888325 6.392146136 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 1190592 NM_000827.2 GRIA1 Homo sapiens HBGR1; 251.2527919 2.615428092 237 glutamate receptor, GLURA; ionotropic, AMPA 1 GLUH1; (GRIA1), mRNA. GLUR1; MGC133252 1110564 NM_006419.1 CXCL13 Homo sapiens SCYB13; 1223.904569 9.405833754 236 chemokine (C-X-C ANGIE; motif) ligand 13 (B- BCA1; cell chemoattractant) ANGIE2; (CXCL13), mRNA. BCA-1; BLR1L; BLC 5870435 NM_006043.1 HS3ST2 Homo sapiens heparan 3OST2; 230.97022 2.353039027 236 sulfate (glucosamine) 30ST2 3-O-sulfotransferase 2 (HS3ST2), mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 1430.703892 19.44818942 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 750.8103215 9.747239118 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 589.5439932 7.331651883 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 1724.199831 15.97680418 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 3890332 NM_001040002.1 MEOX1 Homo sapiens MOX1 406.2896785 5.733233367 233 mesenchyme homeobox 1 (MEOX1), transcript variant 3, mRNA. 4200725 NR_001298.1 HLA- Homo sapiens major 449.4566836 3.970459711 232 DRB6 histocompatibility complex, class II, DR beta 6 (pseudogene) (HLA-DRB6), non- coding RNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 302.2972927 3.119318628 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 6400465 NM_080548.3 PTPN6 Homo sapiens protein SHP-1L; 222.898308 2.054490235 232 tyrosine phosphatase, HCP; SH- non-receptor type 6 PTP1; PTP- (PTPN6), transcript 1C; HCPH; variant 2, mRNA. SHP1; SHP- 1; HPTP1C 4120408 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 406.8490694 5.006329835 231 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 1990661 NM_001010940.1 C9orf135 Homo sapiens 7735.538579 45.39909909 230 chromosome 9 open reading frame 135 (C9orf135), mRNA. 1090561 NM_145740.2 GSTA1 Homo sapiens GTH1; 514.3737733 5.273726533 229 glutathione S- GST2; transferase A1 MGC131939; (GSTA1), mRNA. GSTA1-1 3870246 NM_001007097.1 NTRK2 Homo sapiens GP145- 516.8939086 3.59507015 228 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant b, mRNA. 430102 NM_001018065.1 NTRK2 Homo sapiens GP145- 665.0204738 4.508254388 227 neurotrophic tyrosine TrkB; TRKB kinase, receptor, type 2 (NTRK2), transcript variant d, mRNA. 7210554 NM_016300.4 ARPP-21 Homo sapiens cyclic FLJ32997 620.5603215 6.969776174 226 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 1, mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 8934.08731 13.17814575 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 5260484 NM_002124.1 HLA- Homo sapiens major HLA- 1241.1511 8.89823738 225 DRB1 histocompatibility DRB1*; complex, class II, DR HLA-DR1B; beta 1 (HLA-DRB1), HLA DRB1; mRNA. DRB1 7000181 NM_001037317.1 PAP2D Homo sapiens PAP2 527.9923858 6.440833067 224 phosphatidic acid phosphatase type 2 (PAP2D), transcript variant 1, mRNA. 2850458 NM_201572.1 CACNB2 Homo sapiens calcium CACNLB2; 232.7450931 2.46588987 224 channel, voltage- MYSB; dependent, beta 2 FLJ23743 subunit (CACNB2), transcript variant 8, mRNA. 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 10908.25076 18.0989943 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 6650477 NM_006984.3 CLDN10 Homo sapiens claudin CPETRL3; 1775.710152 16.67476998 223 10 (CLDN10), OSP-L transcript variant 2, mRNA. 5290711 NM_004143.2 CITED1 Homo sapiens MSG1 245.1505922 2.003286952 222 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy- terminal domain, 1 (CITED1), mRNA. 2450307 NM_000325.5 PITX2 Homo sapiens paired- MGC111022; 311.378511 2.544517793 221 like homeodomain 2 IGDS; RS; (PITX2), transcript IDG2; variant 3, mRNA. RIEG; PTX2; IGDS2; Brx1; ARP1; RIEG1; IHG2; IRID2; RGS; Otlx2; MGC20144 2760228 NM_001001994.1 GPM6B Homo sapiens MGC54284; 300.6131134 2.417812702 221 glycoprotein M6B M6B; (GPM6B), transcript MGC17150 variant 4, mRNA. 14SKEL7X P6 5270619 NM_033086.2 FGD3 Homo sapiens FYVE, MGC117260; 816.151692 11.03008908 247 RhoGEF and PH FLJ00004; domain containing 3 ZFYVE5 (FGD3), transcript variant 2, mRNA. 2260471 NM_032432.3 ABLIM2 Homo sapiens actin KIAA1808; 494.6637902 6.010679852 245 binding LIM protein DKFZp761F129; family, member 2 MGC141918; (ABLIM2), mRNA. FLJ39684 6940553 NM_001098635.1 SEZ6 Homo sapiens seizure 2266.439594 29.92365216 244 related 6 homolog (mouse) (SEZ6), transcript variant 2, mRNA. 3450544 NM_138569.2 C6orf142 Homo sapiens MGC18257 296.6964467 4.081656423 243 chromosome 6 open reading frame 142 (C6orf142), mRNA. 1990333 NM_004319.1 ASTN1 Homo sapiens ASTN; 339.8981387 4.062577922 239 astrotactin 1 KIAA1747; (ASTN1), transcript ASTN1 variant 1, mRNA. 7610441 NM_002509.2 NKX2-2 Homo sapiens NK2 NKX2B; 5631.113706 32.44384171 238 homeobox 2 (NKX2- NKX2.2 2), mRNA. 6760725 NM_172105.2 EYA4 Homo sapiens eyes CMD1J; 165.6005076 1.362349545 237 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 4, mRNA. 2350139 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 272.2874788 2.897573808 235 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1260180 NM_004100.3 EYA4 Homo sapiens eyes CMD1J; 493.6221658 3.860299079 233 absent homolog 4 DFNA10 (Drosophila) (EYA4), transcript variant 1, mRNA. 1070162 NM_020116.2 FSTL5 Homo sapiens KIAA1263; 2549.290355 33.38394142 232 follistatin-like 5 DKFZp566D234 (FSTL5), mRNA. 7320348 NM_016511.2 CLEC1A Homo sapiens C-type CLEC1; 190.3830795 1.594295698 232 lectin domain family MGC34328 1, member A (CLEC1A), mRNA. 3120528 NM_018557.2 LRP1B Homo sapiens low LRPDIT; 169.7130288 1.513481592 232 density lipoprotein- LRP-DIT related protein 1B (deleted in tumors) (LRP1B), mRNA. 4120408 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 186.4107445 1.751989621 231 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 50626 NM_015715.3 PLA2G3 Homo sapiens GIII-SPLA2; 477.3011844 3.549175966 226 phospholipase A2, SPLA2III group III (PLA2G3), mRNA. 770615 NM_002701.4 POU5F1 Homo sapiens POU OTF4; 3084.613029 3.89519428 225 class 5 homeobox 1 OCT3; (POU5F1), transcript OCT4; variant 1, mRNA. MGC22487; OTF3 6450746 NR_002304.1 POU5F1P1 Homo sapiens POU POU5FLC8; 3316.217936 4.806286347 223 class 5 homeobox 1 OTF3C; pseudogene 1 OTF3P1 (POU5F1P1), non- coding RNA. 1450358 NM_000519.3 HBD Homo sapiens 207.9585448 1.967937448 221 hemoglobin, delta (HBD), mRNA. 3450347 NM_022161.2 BIRC7 Homo sapiens LIVIN; MLIAP; 184.8456853 1.428790724 221 baculoviral IAP MLIAP; repeat-containing 7 RNF50; (BIRC7), transcript KIAP variant 2, mRNA. 6480593 NM_020809.2 ARHGAP20 Homo sapiens Rho KIAA1391; 355.1510998 3.521700628 219 GTPase activating RARHOGAP protein 20 (ARHGAP20), mRNA. 4180289 NM_001538.2 HSF4 Homo sapiens heat CTM 240.8184433 2.03194322 219 shock transcription factor 4 (HSF4), transcript variant 1, mRNA. 4890274 NM_001040667.1 HSF4 Homo sapiens heat CTM 191.5365482 1.378666317 219 shock transcription factor 4 (HSF4), transcript variant 2, mRNA. 7330639 NM_003822.3 NR5A2 Homo sapiens nuclear FTF; B1F2; 263.0874788 2.409248407 217 receptor subfamily 5, FTZ-F1beta; group A, member 2 hB1F; hB1F- (NR5A2), transcript 2; LRH-1; variant 2, mRNA. B1F; FTZ- F1; CPF 5720075 NM_003638.1 ITGA8 Homo sapiens 228.4329949 2.215645054 217 integrin, alpha 8 (ITGA8), mRNA. 3440747 NM_030820.2 COL21A1 Homo sapiens COLA1L; 223.3902707 1.402853959 214 collagen, type XXI, MGC26619; alpha 1 (COL21A1), dJ708F5.1; mRNA. DKFZp564B052; dJ682J15.1 5690301 NM_001704.1 BAI3 Homo sapiens brain- KIAA0550; 342.8615905 3.303694719 213 specific angiogenesis MGC133100 inhibitor 3 (BAI3), mRNA. 2260424 NM_006727.2 CDH10 Homo sapiens 284.0367174 1.820622674 213 cadherin 10, type 2 (T2-cadherin) (CDH10), mRNA. 3710243 NM_024625.3 ZC3HAV1 Homo sapiens zinc FLJ13288; 321.5152284 2.67624495 212 finger CCCH-type, ZC3HDC2; antiviral 1 FLB6421; (ZC3HAV1), ZAP; transcript variant 2, DKFZp686H1869; mRNA. DKFZp686O19171; MGC48898; DKFZp686F2052; ZC3H2 5270544 NM_006613.3 GRAP Homo sapiens GRB2- MGC64880 196.3899323 1.471251846 212 related adaptor protein (GRAP), mRNA. 3400307 NM_015900.1 PLA1A Homo sapiens PSPLA1; 224.7513536 2.11003931 210 phospholipase A1 PS-PLA1 member A (PLA1A), mRNA. 830348 NM_001104.1 ACTN3 Homo sapiens actinin, MGC117002; 384.3610829 2.234935432 208 alpha 3 (ACTN3), MGC117005 mRNA. 940639 NM_152321.1 ERP27 Homo sapiens ERp27; 596.8041455 6.309864839 206 endoplasmic reticulum FLJ32115; protein 27 kDa C12orf46 (ERP27), mRNA. 520673 NM_152447.2 LRFN5 Homo sapiens leucine C14orf146; 447.0818105 3.88384487 205 rich repeat and DKFZp686G0210; fibronectin type III FIGLER8; domain containing 5 FLJ30803 (LRFN5), mRNA. 5490470 NM_002463.1 MX2 Homo sapiens MXB 326.8739425 1.564606019 205 myxovirus (influenza virus) resistance 2 (mouse) (MX2), mRNA. 2030170 NM_052889.2 COP1 Homo sapiens PSEUDO- 270.9976311 2.365305724 202 caspase-1 dominant- ICE; COP negative inhibitor pseudo-ICE (COP1), transcript variant 2, mRNA. 7050082 NM_001611.2 ACP5 Homo sapiens acid TRAP; 285.5532995 1.732972465 200 phosphatase 5, tartrate MGC117378 resistant (ACP5), mRNA. 7160102 NM_017954.9 CADPS2 Homo sapiens Ca++- KIAA1591; 934.2084602 7.317902029 199 dependent secretion FLJ40851 activator 2 (CADPS2), transcript variant 1, mRNA. 620112 NM_001079691.1 N4BP2L1 Homo sapiens CG018 368.3773266 3.591762528 198 NEDD4 binding protein 2-like 1 (N4BP2L1), transcript variant 2, mRNA. 7380239 NM_004114.2 FGF13 Homo sapiens FGF2; FHF2 1373.698646 6.712119684 197 fibroblast growth factor 13 (FGF13), transcript variant 1A, mRNA. 460575 NM_080647.1 TBX1 Homo sapiens T-box 1 VCFS; TGA; 565.7820643 5.124850227 197 (TBX1), transcript DORV; variant C, mRNA. CTHM; TBX1C; DGS; CAFS; DGCR 6550133 NM_001079691.1 N4BP2L1 Homo sapiens CG018 380.0730964 3.76975768 196 NEDD4 binding protein 2-like 1 (N4BP2L1), transcript variant 2, mRNA. 430079 NM_002310.3 LIFR Homo sapiens CD118; 279.1923858 1.662480673 196 leukemia inhibitory STWS; factor receptor alpha SJS2; SWS (LIFR), mRNA. 2750092 NM_005010.3 NRCAM Homo sapiens MGC138845; 853.3400169 4.537668221 194 neuronal cell adhesion MGC138846; molecule (NRCAM), KIAA0343 transcript variant 2, mRNA. 4180707 NM_001003683.1 PDE1A Homo sapiens HSPDE1A; 544.2763959 2.241179844 193 phosphodiesterase 1A, MGC26303; calmodulin-dependent HCAM1 (PDE1A), transcript variant 2, mRNA. 5810678 NM_002910.4 RENBP Homo sapiens renin RNBP; RBP 1975.214721 9.912255749 192 binding protein (RENBP), mRNA. 6270372 NM_182801.1 EGFLAM Homo sapiens EGF- AGRINL; 325.179357 1.635739588 192 like, fibronectin type AGRNL; III and laminin G FLJ39155 domains (EGFLAM), transcript variant 4, mRNA. 6450661 NM_032250.1 ANKRD20A1 Homo sapiens ankyrin ANKRD20A; 212.1874788 1.504584993 186 repeat domain 20 DKFZp434A171 family, member A1 (ANKRD20A1), mRNA. 4250364 NM_000860.3 HPGD Homo sapiens PGDH; 15- 703.4062606 2.505990181 184 hydroxyprostaglandin PGDH; dehydrogenase 15- PGDH1 (NAD) (HPGD), mRNA. 3800017 NM_001001924.1 MTUS1 Homo sapiens MTSG1; 350.5238579 1.878143913 183 mitochondrial tumor MP44; suppressor 1 DKFZp586D1519; (MTUS1), nuclear ATIP; gene encoding FLJ14295; mitochondrial protein, KIAA1288; transcript variant 1, DKFZp686F20243 mRNA. 14SMOO2X P6 7400356 NM_173848.5 RALYL Homo sapiens RALY HNRPCL3 712.1052453 13.05313107 251 RNA binding protein- like (RALYL), transcript variant 3, mRNA. 6980543 NM_002315.1 LMO1 Homo sapiens LIM RBTN1; 566.7424704 8.156794155 250 domain only 1 MGC116692; (rhombotin 1) TTG1; (LMO1), mRNA. RHOM1 2490551 NM_005604.2 POU3F2 Homo sapiens POU OTF7; 516.5646362 6.335929595 250 class 3 homeobox 2 OCT7; (POU3F2), mRNA. BRN2; POUF3 3890743 NM_006789.2 APOBEC2 Homo sapiens ARCD1; 308.3164129 4.080790747 250 apolipoprotein B ARP1 mRNA editing enzyme, catalytic polypeptide-like 2 (APOBEC2), mRNA. 1170274 NM_003665.2 FCN3 Homo sapiens ficolin MGC22543; 587.9492386 8.195514874 247 (collagen/fibrinogen FCNH; domain containing) 3 HAKA1 (Hakata antigen) (FCN3), transcript variant 1, mRNA. 6350682 NM_016102.2 TRIM17 Homo sapiens RBCC; terf; 363.9677665 5.105782345 247 tripartite motif- RNF16 containing 17 (TRIM17), transcript variant 1, mRNA. 4610692 NM_004389.2 CTNNA2 Homo sapiens catenin DKFZp686H02198; 276.3861252 3.283049351 247 (cadherin-associated CAPR; protein), alpha 2 CAP-R; (CTNNA2), mRNA. CTNR 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 6419.420981 67.49112003 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 7650168 NM_002942.2 ROBO2 Homo sapiens KIAA1568; 494.7444162 7.185399681 245 roundabout, axon SAX3 guidance receptor, homolog 2 (Drosophila) (ROBO2), mRNA. 3360187 NM_052836.1 CDH23 Homo sapiens DKFZp434P2350; 468.8033841 6.296863132 244 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 2, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 1770603 NM_001062.3 TCN1 Homo sapiens TCI; TC1 985.6319797 3.730333725 244 transcobalamin I (vitamin B12 binding protein, R binder family) (TCN1), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 2764.305584 38.62106781 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 6860736 NM_000260.2 MYO7A Homo sapiens myosin USH1B; 713.0751269 10.67926317 243 VIIA (MYO7A), DFNA11; mRNA. NSRD2; MYU7A; DFNB2 6220484 NM_172081.1 CAMK2B Homo sapiens CAMKB; 422.8152284 5.620626163 243 calcium/calmodulin- CAM2; dependent protein MGC29528; kinase (CaM kinase) CAMK2 II beta (CAMK2B), transcript variant 5, mRNA. 6660747 NM_004826.1 ECEL1 Homo sapiens XCE; DINE; 400.5661591 5.296765231 243 endothelin converting ECEX enzyme-like 1 (ECEL1), mRNA. 6510274 NM_022124.3 CDH23 Homo sapiens DKFZp434P2350; 1654.861083 23.91892227 242 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 1, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 4040286 NM_001184.2 ATR Homo sapiens ataxia SCKL1; 645.500846 8.134952228 242 telangiectasia and MEC1; Rad3 related (ATR), FRP1; SCKL mRNA. 4810487 NM_018712.2 ELMOD1 Homo sapiens DKFZp547C176 456.806599 5.34751353 242 ELMO/CED-12 domain containing 1 (ELMOD1), mRNA. 6560487 NM_001842.3 CNTFR Homo sapiens ciliary MGC1774 302.2123519 3.402590384 242 neurotrophic factor receptor (CNTFR), transcript variant 2, mRNA. 50176 NM_020373.1 TMEM16B Homo sapiens DKFZp434P102; 274.1839255 3.014927177 242 transmembrane C12orf3 protein 16B (TMEM16B), mRNA. 1580037 NM_002152.2 HRC Homo sapiens MGC133236 304.4183587 2.771181143 242 histidine rich calcium binding protein (HRC), mRNA. 5860075 NM_004345.3 CAMP Homo sapiens HSD26; 828.3456853 12.58918189 241 cathelicidin LL37; antimicrobial peptide FALL39; (CAMP), mRNA. FALL-39; CAP18 4920075 NM_003245.2 TGM3 Homo sapiens MGC126249; 3202.826142 33.87180029 240 transglutaminase 3 (E TGE; polypeptide, protein- MGC126250 glutamine-gamma- glutamyltransferase) (TGM3), mRNA. 2750563 NM_006741.2 PPP1R1A Homo sapiens protein 303.6515228 3.433098747 240 phosphatase 1, regulatory (inhibitor) subunit 1A (PPP1R1A), mRNA. 4890670 NM_006365.1 C1orf61 Homo sapiens CROC4; 271.9483926 3.29450522 240 chromosome 1 open RP11- reading frame 61 139I14.3; (C1orf61), mRNA. FLJ38303 1710131 NM_172078.1 CAMK2B Homo sapiens CAMKB; 367.1896785 5.103733461 238 calcium/calmodulin- CAM2; dependent protein MGC29528; kinase (CaM kinase) CAMK2 II beta (CAMK2B), transcript variant 2, mRNA. 70086 NM_198993.2 STAC2 Homo sapiens SH3 24b2; 304.1529611 2.773641982 238 and cysteine rich 2462/STAC2; domain 2 (STAC2), MGC129694 mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 1929.630626 25.70944633 237 homology 2 domain containing transforming protein D (SHD), mRNA. 6380689 NM_004842.2 AKAP7 Homo sapiens A AKAP18 413.02978 5.244727373 237 kinase (PRKA) anchor protein 7 (AKAP7), transcript variant alpha, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 345.6143824 3.989229652 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 458.8385787 5.557903578 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 5550414 NM_019845.2 RPRM Homo sapiens FLJ90327; 3607.350423 25.2462122 234 reprimo, TP53 REPRIMO dependent G2 arrest mediator candidate (RPRM), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 326.4632826 3.613698815 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 580561 NM_021116.1 ADCY1 Homo sapiens 1862.033503 23.40775682 233 adenylate cyclase 1 (brain) (ADCY1), mRNA. 4890292 NM_173485.4 TSHZ2 Homo sapiens teashirt C20orf17; 1285.017936 10.87318918 233 zinc finger homeobox OVC10-2; 2 (TSHZ2), mRNA. TSH2; ZNF218; FLJ33887; DKFZp686K2480; ZABC2 1230477 NM_005853.4 IRX5 Homo sapiens IRX-2a 1015.143655 9.898813475 233 iroquois homeobox protein 5 (IRX5), mRNA. 1990731 NM_006157.2 NELL1 Homo sapiens NEL- FLJ45906; 602.1 6.291765482 233 like 1 (chicken) IDH3GL; (NELL1), mRNA. NRP1 1660386 NM_030667.1 PTPRO Homo sapiens protein GLEPP1; 518.52022 6.07356951 233 tyrosine phosphatase, PTP-U2; receptor type, O PTPU2 (PTPRO), transcript variant 1, mRNA. 3190246 NM_004067.2 CHN2 Homo sapiens BCH; 356.2817259 4.305540154 233 chimerin (chimaerin) ARHGAP3; 2 (CHN2), transcript RHOGAP3; variant 2, mRNA. MGC138360 7550358 NM_006159.1 NELL2 Homo sapiens NEL- NRP2 621.7490694 3.474177808 233 like 2 (chicken) (NELL2), mRNA. 5050681 NM_017899.2 TESC Homo sapiens TSC; 334.614044 3.076014713 232 tescalcin (TESC), FLJ20607 mRNA. 5390575 NM_006561.2 CUGBP2 Homo sapiens CUG BRUNOL3; 341.5216582 3.850276727 230 triplet repeat, RNA ETR-3; binding protein 2 NAPOR (CUGBP2), transcript variant 2, mRNA. 360014 NM_052836.1 CDH23 Homo sapiens DKFZp434P2350; 854.4878173 10.72476097 229 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 2, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 7200341 NM_152721.3 DOK6 Homo sapiens HsT3226; 523.1500846 6.976167836 229 docking protein 6 DOK5L; (DOK6), mRNA. MGC20785 5390128 NM_018176.2 LGI2 Homo sapiens KIAA1916; 332.0390017 2.972012889 229 leucine-rich repeat MGC126808; LGI family, member 2 MGC126810; (LGI2), mRNA. FLJ10675; LGIL2 2750154 NM_014800.9 ELMO1 Homo sapiens MGC126406; 578.9230964 7.197406463 228 engulfment and cell CED12; motility 1 (ELMO1), CED-12; transcript variant 1, KIAA0281; mRNA. ELMO-1 3180615 NM_001001552.3 LEMD1 Homo sapiens LEM LEMP-1 422.2824027 4.640235588 228 domain containing 1 (LEMD1), mRNA. 2350201 NM_181670.2 ANKS1B Homo sapiens ankyrin MGC26087; 814.623181 10.76509991 227 repeat and sterile EB-1; alpha motif domain ANKS2; containing 1B AIDA-1; (ANKSIB), transcript AIDA; variant 2, mRNA. cajalin-2 14SMOO8X P6 7400356 NM_173848.5 RALYL Homo sapiens RALY HNRPCL3 1350.184433 25.64538554 251 RNA binding protein- like (RALYL), transcript variant 3, mRNA. 3990278 NM_006998.3 SCGN Homo sapiens SEGN; 310.5986464 4.222983258 251 secretagogin, EF-hand DJ501N12.8; calcium binding CALBL; protein (SCGN), setagin; mRNA. SECRET 6480575 NM_052917.2 GALNT13 Homo sapiens UDP- FLJ16031; 268.8393401 3.761884681 251 N-acetyl-alpha-D- MGC119459; galactosamine: polypeptide GalNAc- N- T13; acetylgalactosaminyltransferase MGC119461; 13 WUGSC: (GalNAc-T13) H_NH0187G20.1; (GALNT13), mRNA. H_NH0187G20.1; FLJ41157; KIAA1918 6980543 NM_002315.1 LMO1 Homo sapiens LIM RBTN1; 534.0829103 7.629117327 250 domain only 1 MGC116692; (rhombotin 1) TTG1; (LMO1), mRNA. RHOM1 2490551 NM_005604.2 POU3F2 Homo sapiens POU OTF7; 584.7906937 7.304833618 250 class 3 homeobox 2 OCT7; (POU3F2), mRNA. BRN2; POUF3 4260471 NM_005076.2 CNTN2 Homo sapiens TAG-1; 387.7181049 5.843291823 250 contactin 2 (axonal) TAX; (CNTN2), mRNA. DKFZp781D102; TAX1; MGC157722; FLJ42746; AXT 840681 NM_001037317.1 PAP2D Homo sapiens PAP2 280.1494924 4.318001407 249 phosphatidic acid phosphatase type 2 (PAP2D), transcript variant 1, mRNA. 1010189 NM_033225.3 CSMD1 Homo sapiens CUB KIAA1890 330.048308 5.58655547 248 and Sushi multiple domains 1 (CSMD1), mRNA. 1170274 NM_003665.2 FCN3 Homo sapiens ficolin MGC22543; 573.0299492 7.962177473 247 (collagen/fibrinogen FCNH; domain containing) 3 HAKA1 (Hakata antigen) (FCN3), transcript variant 1, mRNA. 3180068 NM_013371.2 IL19 Homo sapiens NG.1; IL- 363.062775 5.930565585 247 interleukin 19 (IL19), 10C; transcript variant 2, ZMDA1; mRNA. MDA1 6350682 NM_016102.2 TRIM17 Homo sapiens RBCC; terf; 352.8722504 4.919648262 247 tripartite motif- RNF16 containing 17 (TRIM17), transcript variant 1, mRNA. 6220750 NM_000826.2 GRIA2 Homo sapiens HBGR2; 8741.622166 92.26752285 245 glutamate receptor, GLURB; ionotropic, AMPA 2 GLUR2 (GRIA2), mRNA. 7650168 NM_002942.2 ROBO2 Homo sapiens KIAA1568; 760.7395939 11.58621103 245 roundabout, axon SAX3 guidance receptor, homolog 2 (Drosophila) (ROBO2), mRNA. 3360187 NM_052836.1 CDH23 Homo sapiens DKFZp434P2350; 495.5326565 6.712900749 244 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 2, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 7160192 NM_139319.1 SLC17A8 Homo sapiens solute VGLUT3 234.1624365 3.283310633 244 carrier family 17 (sodium-dependent inorganic phosphate cotransporter), member 8 (SLC17A8), mRNA. 7320471 NM_003221.3 TFAP2B Homo sapiens MGC21381; 1913.046193 26.41988201 243 transcription factor AP-2B; AP-2 beta (activating AP2-B enhancer binding protein 2 beta) (TFAP2B), mRNA. 6860736 NM_000260.2 MYO7A Homo sapiens myosin USH1B; 618.9494078 9.137603664 243 VIIA (MYO7A), DFNA11; mRNA. NSRD2; MYU7A; DFNB2 6220484 NM_172081.1 CAMK2B Homo sapiens CAMKB; 575.7461929 8.015286233 243 calcium/calmodulin- CAM2; dependent protein MGC29528; kinase (CaM kinase) CAMK2 II beta (CAMK2B), transcript variant 5, mRNA. 6660747 NM_004826.1 ECEL1 Homo sapiens XCE; DINE; 491.9045685 6.732574293 243 endothelin converting ECEX enzyme-like 1 (ECEL1), mRNA. 3310068 NM_004113.3 FGF12 Homo sapiens FHF1; 386.514467 5.033556556 243 fibroblast growth FGF12B factor 12 (FGF12), transcript variant 2, mRNA. 5270102 NM_001015887.1 IGSF11 Homo sapiens VSIG3; 325.0898477 3.411330596 243 immunoglobulin Igsf13; superfamily, member MGC35227; 11 (IGSF11), BT-IgSF; transcript variant 2, CXADRL1 mRNA. 2340438 NM_001048209.1 HNT Homo sapiens NTM; 283.6207276 2.992407537 243 neurotrimin (HNT), MGC60329 transcript variant 2, mRNA. 6510274 NM_022124.3 CDH23 Homo sapiens DKFZp434P2350; 1603.834856 23.15056861 242 cadherin-like 23 USH1H; (CDH23), transcript KIAA1774; variant 1, mRNA. FLJ00233; MGC102761; FLJ36499; DFNB12; USH1D; KIAA1812 4810487 NM_018712.2 ELMOD1 Homo sapiens DKFZp547C176 1255.341032 16.44347434 242 ELMO/CED-12 domain containing 1 (ELMOD1), mRNA. 4040286 NM_001184.2 ATR Homo sapiens ataxia SCKL1; 480.6663283 5.802259011 242 telangiectasia and MEC1; Rad3 related (ATR), FRP1; SCKL mRNA. 6560487 NM_001842.3 CNTFR Homo sapiens ciliary MGC1774 365.4590525 4.323960122 242 neurotrophic factor receptor (CNTFR), transcript variant 2, mRNA. 6660463 NM_020140.2 ANKS1B Homo sapiens ankyrin MGC26087; 276.051692 3.070028549 242 repeat and sterile ANKS2; alpha motif domain AIDA; containing 1B cajalin-2; (ANKS1B), transcript EB-1; variant 3, mRNA. AIDA-1 1580037 NM_002152.2 HRC Homo sapiens MGC133236 325.0898477 3.027262707 242 histidine rich calcium binding protein (HRC), mRNA. 5860075 NM_004345.3 CAMP Homo sapiens HSD26; 389.4118443 5.38838166 241 cathelicidin LL37; antimicrobial peptide FALL39; (CAMP), mRNA. FALL-39; CAP18 4920075 NM_003245.2 TGM3 Homo sapiens MGC126249; 2657.075635 27.92976602 240 transglutaminase 3 (E TGE; polypeptide, protein- MGC126250 glutamine-gamma- glutamyltransferase) (TGM3), mRNA. 7550156 NM_032880.2 IGSF21 Homo sapiens FLJ41177; 639.0837563 7.139008159 240 immunoglobin RP11- superfamily, member 121A23.1; 21 (IGSF21), mRNA. MGC15730 2750563 NM_006741.2 PPP1R1A Homo sapiens protein 304.9199662 3.451617128 240 phosphatase 1, regulatory (inhibitor) subunit 1A (PPP1R1A), mRNA. 3180639 NM_020783.2 SYT4 Homo sapiens KIAA1342; 272.0239425 2.947078494 239 synaptotagmin IV HsT1192 (SYT4), mRNA. 1710131 NM_172078.1 CAMK2B Homo sapiens CAMKB; 554.2815567 8.213730893 238 calcium/calmodulin- CAM2; dependent protein MGC29528; kinase (CaM kinase) CAMK2 II beta (CAMK2B), transcript variant 2, mRNA. 730093 NM_020209.2 SHD Homo sapiens Src 1398.263452 18.35439981 237 homology 2 domain containing transforming protein D (SHD), mRNA. 6380689 NM_004842.2 AKAP7 Homo sapiens A AKAP18 606.8905245 8.175769047 237 kinase (PRKA) anchor protein 7 (AKAP7), transcript variant alpha, mRNA. 5270520 NM_005449.3 FAIM3 Homo sapiens Fas TOSO 573.0299492 7.272161577 237 apoptotic inhibitory molecule 3 (FAIM3), mRNA. 7000176 NM_152679.2 SLC10A4 Homo sapiens solute MGC29802; 445.6170897 5.368936795 235 carrier family 10 P4 (sodium/bile acid cotransporter family), member 4 (SLC10A4), mRNA. 6330070 NM_013371.2 IL19 Homo sapiens NG.1; IL- 290.8384095 2.929329671 235 interleukin 19 (IL19), 10C; transcript variant 2, ZMDA1; mRNA. MDA1 5550414 NM_019845.2 RPRM Homo sapiens FLJ90327; 9603.588832 68.87339758 234 reprimo, TP53 REPRIMO dependent G2 arrest mediator candidate (RPRM), mRNA. 7160437 NM_001025068.1 ARPP-21 Homo sapiens cyclic FLJ32997 362.5733503 4.124019532 234 AMP-regulated phosphoprotein, 21 kD (ARPP-21), transcript variant 3, mRNA. 580561 NM_021116.1 ADCY1 Homo sapiens 1274.147885 15.70168216 233 adenylate cyclase 1 (brain) (ADCY1), mRNA. 1990731 NM_006157.2 NELL1 Homo sapiens NEL- FLJ45906; 779.0571912 8.434815372 233 like 1 (chicken) IDH3GL; (NELL1), mRNA. NRP1 1660386 NM_030667.1 PTPRO Homo sapiens protein GLEPP1; 685.3079526 8.348860955 233 tyrosine phosphatase, PTP-U2; receptor type, O PTPU2 (PTPRO), transcript variant 1, mRNA. 4890292 NM_173485.4 TSHZ2 Homo sapiens teashirt C20orf17; 980.7642978 8.061974719 233 zinc finger homeobox OVC10-2; 2 (TSHZ2), mRNA. TSH2; ZNF218; FLJ33887; DKFZp686K2480; ZABC2 3190246 NM_004067.2 CHN2 Homo sapiens BCH; 481.9829949 6.177410311 233 chimerin (chimaerin) ARHGAP3; 2 (CHN2), transcript RHOGAP3; variant 2, mRNA. MGC138360 460010 NM_004615.2 TSPAN7 Homo sapiens TM4SF2; 583.9037225 5.651359668 233 tetraspanin 7 MRX58; (TSPAN7), mRNA. MXS1; DXS1692E; CD231; CCG-B7; TALLA-1; A15; TM4SF2b 1230477 NM_005853.4 IRX5 Homo sapiens IRX-2a 586.184264 5.29340776 233 iroquois homeobox protein 5 (IRX5), mRNA.

Claims

1. A method of generating an isolated progenitor cell line comprising:

modulating the activity of a transcriptional regulator in a pluripotent stem cell; and
inducing the differentiation of said pluripotent stem cell in vitro to generate a progenitor cell line.

2. The method of claim 1, wherein said pluripotent stem cell is human.

3. The method of claim 2, wherein said human pluripotent stem cell is not derived from a human embryo.

4. The method of claim 1, wherein said modulating comprises increasing the activity of said transcriptional regulator in said pluripotent stem cell.

5. The method of claim 1, wherein said pluripotent stem cell result from the reprogramming of a somatic cell that is genetically modified to constitutively overexpress a transcription factor.

6. The method of claim 5, wherein said transcriptional regulator is OCT4.

7. The method of claim 1, wherein said modulating comprises introducing an expression vector encoding said transcriptional regulator into said pluripotent stem cell.

8. The method of claim 7, wherein said expression vector is selected from the group consisting of: constitutive expression vector, inducible expression vector, retroviral vector, lentiviral vector, transient expression vector, and combinations thereof.

9. The method of claim 1, wherein said modulating comprises introducing said transcriptional regulator directly into said pluripotent stem cell.

10. The method of claim 9, wherein said transcriptional regulator is a protein.

11. The method of claim 1, further comprising increasing cell division in derivatives of said pluripotent stem cell.

12. The method of claim 11, wherein said increasing cell division comprises providing a cell cycle regulator that overcomes cell cycle inhibition in said pluripotent stem cell.

13. The method of claim 12, wherein said cell cycle regulator is selected from the group consisting of: p53, SV40 T antigen, adenovirus proteins E1A and E1B, papillomavirus proteins E6 and/or E7, CDK4, and combinations thereof.

14. The method of claim 1, wherein said isolated progenitor cell line constitutively expresses a transcriptional regulator.

15. The method of claim 14, wherein said transcriptional regulator is selected from the group consisting of: OCT4, SIX1, FOXA1, SOX17, SIX2, SOX2, SOX21, PAX6, MYOD1, MYOG, NEUROG1, NKX2.5, and LHX8.

16. The method of claim 1, wherein said pluripotent stem cell is selected from the group consisting of: ES cell, somatic cell reprogrammed to pluripotent cell including an iPS cell, ED cell, EG cell, and EC cell.

17. The method of claim 1, wherein said progenitor cell line is selected from the group consisting of: endodermal cells, mesodermal cells, ectodermal cells, neuroglial precursor cells, hepatic cells or hepatic precursor cells, chondrocyte or chondrocyte precursor cells, myocardial or myocardial precursor cells, gingival fibroblast or gingival fibroblast precursor cells, pancreatic beta cells or pancreatic beta precursor cells, retinal precursor cells, hemangioblasts, dermal fibroblasts,

18. An isolated progenitor cell line, wherein said isolated progenitor cell line constitutively expresses a transcription factor selected from the group consisting of: OCT4, SIX1, FOXA1, SOX17, SIX2, SOX2, SOX21, PAX6, MYOD1, MYOG, NEUROG1, NKX2.5, LHX8, and combinations thereof.

19. The isolated progenitor cell line of claim 18, wherein said progenitor cell line is 14SKEL12Z.

20. An isolated progenitor cell line, wherein said progenitor cell line is selected from the group consisting of: 14SKEL7X, 14SKEL18X, 14SKEL12Z, 14SKEL14Z, 14SKEL15Z, 14SKEL20Z, 14SKEL24Z, 14PEND2X, 14PEND11X, 14PEND12X, 14PEND14X, 14PEND20X, 14PEND23X, 14PEND24X, 14SMOO2X, 14SMOO8X, and 14PEND17Z.

Patent History
Publication number: 20180170982
Type: Application
Filed: Jul 12, 2017
Publication Date: Jun 21, 2018
Applicant: BioTime, Inc. (Alameda, CA)
Inventors: Michael D. West (Mill Valley, CA), Karen B. Chapman (Mill Valley, CA)
Application Number: 15/647,687
Classifications
International Classification: C07K 14/47 (20060101); C12N 5/074 (20060101);