Abstract: The present invention is related to a method for introducing biomolecules, such as nucleic acids, into cells by culturing cells on a solid surface which is coated with a transfection reagents and biomolecules.

Abstract: Controlled delivery of nucleic acid into target cells is achieved by immobilizing the nucleic acid and the cells to a substrate. Improved control over delivery is achieved by immobilizing the nucleic acid to the substrate via complementary DNA binding interactions with an oligonucleotide linker.

Abstract: This invention relates to a method to modulate exogenous gene expression in which an ecdysone receptor complex comprising: a DNA binding domain; a ligand binding domain; a transactivation domain; and a ligand is contacted with a DNA construct comprising: the exogenous gene and a response element; wherein the exogenous gene is under the control of the response element and binding of the DNA binding domain to the response element in the presence of the ligand results in activation or suppression of the gene. The ligands comprise a class of ketones.

Abstract: The present invention relates to a process for preparing, in particular, enantiomerically enriched L-?-amino acids, in particular those of the general formula (I). In this connection, the process according to the invention uses 2-ketocarboxylic acids which are converted into the desired products using a whole-cell catalyst which comprises an amino acid dehydrogenase and a cofactor-regenerating enzyme.

Abstract: In certain aspects the present invention provides methods and compositions related to contrast agents for magnetic resonance imaging. In certain variations, contrast agents provided herein are generated in situ via genetic instructions and become potent upon sequestering available metal atoms. Exemplary contrast agents include metal-binding proteins.

Abstract: The present invention provides diacylhydrazine ligands and chiral diacylhydrazine ligands for use with ecdysone receptor-based inducible gene expression systems. Thus, the present invention is useful for applications such as gene therapy, large scale production of proteins and antibodies, cell-based screening assays, functional genomics, proteomics, metabolomics, and regulation of traits in transgenic organisms, where control of gene expression levels is desirable. An advantage of the present invention is that it provides a means to regulate gene expression and to tailor expression levels to suit the user's requirements.

Abstract: Compositions which comprise an anthracycline agent, and a cytidine analog are encapsulated in liposomal carriers. The preferred anthracycline agent is selected from the group of daunorubicin, doxorubicin, and idarubicin, while the preferred cytidine analog is selected from the group of cytarabine, gemcitabine, or 5-azacytidine. The combination of the anthracycline agent and cytidine analog encapsulated in said liposomal carriers are useful in achieving a drug retention and a sustained drug release for each therapeutic agent.

Abstract: A method for separating tumor cells with lymphotropic metastatic potential from those without lymphotropic metastatic potential in a human carcinoma. Cells of the carcinoma are transplanted in each of a plurality of fresh athymic mice. At least one of the athymic mice which does not develop a palpable tumor at the transplant site is treated to suppress the T-cell independent innate anti-tumor activity of natural killer cells therein. Tumor-forming cells at the transplant site of the treated athymic animal are harvested to obtain a cell line of cells with lymphotropic metastatic potential, which is also tested for the expression of T-lymphocyte associated molecules. Such cells are intimately associated with low or diminished angiogenicity and immunogenicity. The traditional scientific criteria for human cancer cells is re-defined, and therapeutic targets for human cancer cells is re-focused.

Abstract: The present invention discloses a method for improving growth and survival of single human embryonic stem cells. The method includes the step of obtaining a single undifferentiated HES cell; mixing the single undifferentiated cell with an extracellular matrix (ECM) to encompass the cell; and inoculating the mixture onto feeder cells with a nutrient medium in a growth environment. Therefore the single cells can survive, proliferate and grow in vitro.

Abstract: The present invention relates generally to constructs and in particular genetic constructs comprising polynucleotide sequences capable of release in covalently closed, circular form from a larger nucleotide sequence such as a genome of a eukaryotic cell. Preferably, once released, a polynucleotide sequence is reconstituted in a form which permits expression of the polynucleotide sequence. In one embodiment, the reconstituted polynucleotide sequence comprises a coding sequence with all or part of an extraneous nucleotide such as an intronic sequence or other splice signal inserted therein. Expression and in particular transcription of the coding sequence involves splicing out the extraneous sequence. The release and circularization is generally in response to a stimulus such as a protein-mediated stimulus. More particularly, the protein is a viral or prokaryotic or eukaryotic derived protein or developmentally and/or tissue specific regulated protein.

Abstract: A polynucleotide is barcoded using a method whereby an isolated, individual polynucleotide is immobilized on a solid phase and stretched, targets are labeled using target-specific hybridization probes, and an individual label of an unamplified probe at each of the labeled targets is optically detected. The order of the labels is determined to form a barcode representation of the polynucleotide wherein the targets and their relative positions are represented.

Abstract: The present invention provides a cell-specific expression/replication vector, and a method of treatment comprising introducing a cell-specific expression/replication vector into specific cells such as malignant tumors in order to selectively disrupt the specific cells. A vector according to the invention is constructed by: obtaining a transcriptional initiation regulatory region of human calponin gene that is specifically expressed in smooth muscle cell; linking the above region upstream to a replication-related gene of a virus such as ICP4 and the like; linking DNA that encodes a protein such as suppressive factor for tumor angiogenesis or apoptosis-related factors and the like via IRES to the replication-related gene of the virus; and integrating a thymidine kinase gene in an intact state into the viral DNA.

Abstract: The present invention relates to canine interleukin-4, canine or feline Flt-3 ligand, canine or feline CD40, canine or feline CD154, canine interleukin-5, canine interleukin-13, feline interferon alpha, and/or feline GM-CSF proteins; to canine interleukin-4, canine or feline Flt-3 ligand, canine or feline CD40, canine or feline CD154, canine interleukin-5, canine interleukin-13, feline interferon alpha, and/or feline GM-CSF nucleic acid molecules, including those that encode canine interleukin-4, canine or feline Flt-3 ligand, canine or feline CD40, canine or feline CD154, canine interleukin-5, canine interleukin-13, feline interferon alpha, and/or feline GM-CSF proteins, respectively; to antibodies raised against such proteins; and to inhibitory compounds that regulate such proteins. The present invention also includes methods to identify and obtain such proteins, nucleic acid molecules, antibodies, and inhibitory compounds.

Abstract: Methods and compositions are provided for extending the clinical utility of IFN-? in the treatment of a variety of viral and proliferative disorders. Among other aspects, the invention provides methods which increase the efficacy of IFN-? treatment and reduce IFN-? treatment-related side effects. In addition, methods are provided for supporting the survival and for activating natural interferon producing cells (IPCs) in vitro without exogenous IL-3 or GM-CSF. The invention is based on the discovery that certain CpG and non-CpG ISNAs promote survival and stimulation of IPCs.

Abstract: The present invention relates to an avirulent, oncolytic herpes simplex virus modified from a wild-type herpes simplex virus so that both ?134.5 genes of the virus have been deleted and each replaced with an interferon-resistance gene that is expressed as an immediate-early gene. The present invention also relates to a pharmaceutical composition that includes the modified herpes simplex virus of the present invention and a pharmaceutically acceptable vehicle for in situ administration to tumor cells. Also provided in the present invention are methods for killing tumor cells in a subject and for immunizing a subject against an infectious disease, cancer, or an autoimmune disease that involve administering to a subject the modified avirulent, oncolytic herpes simplex virus of the present invention.

Abstract: A method for obtaining a mixture of heterogenous short double-stranded RNA molecules suitable for use in gene silencing (hsiRNA) by subjecting large double-stranded RNA to enzymatic cleavage under specified conditions. The resulting mixture consistently includes enhanced representation of fragments having a size of 21-22 nucleotides absent any fractionation step. The fragments contain sequences that collectively span the entire length of the large double-stranded RNA from which they are derived. Double-stranded RNA with sequences that individually represent segments of a target mRNA may be analyzed using the methods described herein to identify the most active subset of hsiRNA fragments or individual siRNA fragments for achieving gene silencing for any gene or transcribed sequences. A method is additionally provided for preparing and cloning DNA encoding selected siRNA, hsiRNA mixtures or hairpin sequences to provide a continuous supply of a gene silencing reagent derived from any long double-stranded RNA.

Abstract: The present invention relates to genes responsible for disorders with a vascular component, the identification of mutations in said genes and the detection of their sequences as well as methods for detection and treatment for disorders with a vascular component. This invention further relates to proteins encoded by said genes and their applications.

Abstract: The present invention provides a medical device, and methods of preparing and using a medical device. The medical device has a surface including a biologically active agent therein. The methods are particularly useful for preparing, for example, coated stents having a biologically active agent within the coating.

Abstract: The present invention provides a cell-specific replication-competent vector system, which does not target normal cells. The vector system is constructed by linking a transcriptional initiation regulatory promoter region upstream of a viral replication-related gene that integrates the linked region into a viral DNA vector. The constructed vector, when introduced into malignant tumor cells, selectively injures only tumor cells or proliferating smooth muscle cells of tumor neovascular tissue due to the selective expression of the regulatory promoter region upstream of a viral replication-related gene. In particular, the present invention relates to a transcriptional initiation regulatory region of the human calponin gene that can selectively express in tumor cells or proliferating smooth muscle cells of tumor neovascular tissue.

Abstract: The invention is a novel MECP2E1 splice variant and its corresponding polypeptide. The invention also includes methods of using these nucleic acid sequences and proteins in medical diagnosis and treatment of neuropsychiatric disorders or development disorders.