Abstract: The present invention is related to a nucleic acid construct comprising an expression unit for the expression of E1B, wherein the expression unit comprises a promoter, a nucleotide sequence coding for E1B, and a 3?UTR, wherein the promoter is operatively linked to the nucleotide sequence coding for E1B, wherein the 3?UTR comprises 30 or less than 30 Exonic Enhancer Elements (ESEs), preferably 20 or less than 20 Exonic Enhancer Elements (ESEs), and wherein the 3? UTR is a non-viral 3? UTR.

Abstract: Novel transcription units that may be used in expression vectors. The transcription unit allow antibodies to be produced whose gain in productivity is not linked to a particular antigenic target antibody and therefore by extrapolation to a given recombinant protein, nor linked to the culture medium.

Abstract: Compositions and methods of use thereof encompass engineered mesenchymal stem cells as a vehicle to deliver secreted tissue necrosis factor-RGD4C fusion polypeptides for tumor treatment, thereby reducing side effects of TNF. A reporter gene can be included in vector constructs to monitor the localization and viability of engineered MSCs after administration into a recipient animal. The genetically modified mesenchymal stem cell can comprise an expression cassette comprising a nucleic acid sequence operably linked to a gene expression promoter and encoding the heterologous fusion polypeptide comprising a tissue necrotic factor region and an integrin-binding region.

Abstract: Provided herein are compositions, kits and methods useful in the construction of designer transcription activator-like effector (dTALE) polypeptides.

Abstract: This invention relates to the field of therapeutics. Most specifically invention provides methods of generating in vitro engineered immune cells conditionally expressing interleukin-12 (IL-12) and one or more immunomodulators under the control of a gene expression modulation system in the presence of activating ligand and uses for therapeutic purposes in animals.

Abstract: Myelodysplastic syndromes display both hematological and biological heterogeneity with variable leukemia potential. To determine whether microRNAs expression offers diagnostic discrimination or influences malignant potential in MDS, bone marrow miRNA expression was investigated from prognostically distinct MDS subsets using a microarray platform. After background subtraction and normalization, data were analyzed indicating thirteen miRNA signature with statistically significant differential expression, including down-regulation of members of a leukemia associated miRNA family. A unique signature consisting of 10 miRNAs was closely associated with International Prognostic Scoring System risk category permitting discrimination between lower and higher risk disease. Selective overexpression of miRNA-181 family members was detected in higher risk MDS, indicating pathogenetic overlap with acute myeloid leukemia.

Abstract: A method for analyzing biomolecular interactions, which method can be carried out without performing affinity selection using an immobilized bait, is provided. mRNA portions of assignment molecules that interacted with each other are linked together by annealing via a DNA linker for linking mRNA portions of assignment molecules together, the DNA linker comprising, at the 5?-end, an mRNA-complementary region complementary to a sequence at the 5?-end of each mRNA portion, and, at the 3?-end, a self-complementary region complementary between molecules of the DNA linker, the DNA linker being phosphorylated at the 5?-end.

Abstract: The present invention relates generally to the detection or diagnosis of depressive disorders, and provides methods and compositions useful for this purpose. In particular, the present invention provides biomarkers for the detection or diagnosis of major depressive disorder, and methods of use thereof.

Abstract: Provided herein are multiblock copolymers, as well as micelles and therapeutic compositions thereof.

Abstract: The present invention refers to methods for selectively recognizing a base pair in a DNA sequence by a polypeptide, to modified polypeptides which specifically recognize one or more base pairs in a DNA sequence and, to DNA which is modified so that it can be specifically recognized by a polypeptide and to uses of the polypeptide and DNA in specific DNA targeting as well as to methods of modulating expression of target genes in a cell.

Abstract: The disclosure includes the identification and use of gene expression profiles, or patterns, with clinical relevance to cancer. In particular, the disclosure includes the identities of genes that are expressed in correlation with tumor grade. The levels of gene expression are disclosed as a molecular index for determining tumor grade in a patient and predicting clinical outcome, and so prognosis, for the patient. The molecular grading of cancer may optionally be used in combination with a second molecular index for diagnosing cancer and its prognosis. The disclosure further includes methods for predicting cancer recurrence, and/or predicting occurrence of metastatic cancer. For diagnosis or prognosis, the disclosure further includes methods for determining or selecting the treatment of cancer based upon the likelihood of life expectancy, cancer recurrence, and/or cancer metastasis.

Abstract: Provided herein are, inter alia, methods for linking an mRNA molecule to a polypeptide (e.g., a peptide or a protein) by linking the mRNA molecule to a linking amino acid in the polypeptide, or by linking the mRNA molecule to a linking tRNA to which the polypeptide is attached, via reactions not catalyzed by the ribosome, and methods for making polypeptide libraries. Also provided are mRNA-protein complexes and mRNA-tRNA-protein complexes, libraries containing these complexes, and methods of using these complexes.

Abstract: The present invention relates to proliferating human taste cells, wherein the cells are the cells deposited under the DSMZ deposit accession number DSM ACC3169 or taste cells derived thereof. The present invention further relates to the proliferating human taste cells of the invention for use in research. Further, the present invention relates to in vitro methods for analyzing the signalling response of taste cells to a molecule involved in taste signalling, in vitro methods of identifying agents capable of eliciting a taste response in taste cells as well as in vitro methods of identifying modulators of taste signalling.

Abstract: The invention relates to a method for increasing the production level of isoprenoids in an algal cell. The method includes increasing expression of a polynucleotide sequence that encodes 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (IDS) in the algal cell. In another aspect, the invention relates to a method for increasing the production level of carotenoids in an algal cell. The method includes increasing expression of polynucleotide sequence that encodes phytoene desaturases (PDS) in the algal cell. In a further aspect, the invention relates to an algal cell having a polynucleotide sequence that is genetically engineered to express a higher level of IDS or PDS than a corresponding wild type algal cell, wherein the cell produces an increased level of isoprenoids or carotenoids, respectively, than a corresponding wild type algal cell.

Abstract: The present invention encompasses methods of administering SRF?3. Administering SRF?3 may reduce proliferation of cancer cells, and modulate activity of promoters regulated by serum response factor.

Abstract: The present invention refers to methods for selectively recognizing a base pair in a DNA sequence by a polypeptide, to modified polypeptides which specifically recognize one or more base pairs in a DNA sequence and, to DNA which is modified so that it can be specifically recognized by a polypeptide and to uses of the polypeptide and DNA in specific DNA targeting as well as to methods of modulating expression of target genes in a cell.

Abstract: Embodiments of the present invention relate to a spontaneously immortalized avian cell line, designated ZS-1. Immortalized avian cell line, ZS-1 is derived from primary chicken embryo fibroblasts (CEF). The ZS-1 cell line is free of endogenous retroviruses, including Avian Leukosis Viruses (ALV), and particularly ALV sub-group E. Moreover, the ZS-1 cell line susceptible to all subgroups of ALV, including subgroup E. Cells of the ZS-1 cell line and sub-clones thereof may be used for inter alia the production of viral agents, including recombinant viral agents, expression of recombinant proteins, and diagnostic assays.

Abstract: The present invention provides promoters derived from a filamentous fungus. These promoters have application in the fields of molecular biology, microbiology, fungal genetics and production of biofuels and other products.

Abstract: Provided is a method for producing xylonic acid from xylose with a recombinant fungal strain that is genetically modified to express a xylose dehydrogenase gene, which is able to convert xylose to xylonolactone, which is spontaneously or enzymatically hydrolyzed to xylonic acid. The xylonic acid is excreted outside the host cell. Xylonate production may be coupled with xylitol production. Alternatively, if xylitol production is not desired, its production is reduced by removing the aldose reductase (or specific xylose reductase) enzyme, which converts xylose to xylitol. Expression of a heterologous lactonase encoding gene may result in higher acid concentrations. The method is suitable for producing xylonic acid from a hemicellulose hydrolysate such as hydrolyzed lignocellulosic plant biomass.

Abstract: The present invention relates to a recombinant host cell, wherein the cell is modified to increase the expression levels of Ero1 and XBP1 relative to the expression levels of Ero1 and XBP1 in an unmodified cell. The present invention also relates to a method of producing a recombinant protein of interest comprising expressing the recombinant protein of interest in the recombinant host cell.