Deborah K. Villalon scite author profile

The National Institutes of Health Mammalian Gene Collection (MGC) Program is a multiinstitutional effort to identify and sequence a cDNA clone containing a complete ORF for each human and mouse gene. ESTs were generated from libraries enriched for full-length cDNAs and analyzed to identify candidate full-ORF clones, which then were sequenced to high accuracy. The MGC has currently sequenced and verified the full ORF for a nonredundant set of >9,000 human and >6,000 mouse genes. Candidate full-ORF clones for an additional 7,800 human and 3,500 mouse genes also have been identified. All MGC sequences and clones are available without restriction through public databases and clone distribution networks (see http:͞͞mgc.nci.nih.gov).T he gene content of the mammalian genome is a topic of great interest. While draft sequences are now available for the human (1, 2), mouse (www.ensembl.org͞Mus musculus), and rat (http:͞͞hgsc.bcm.tmc.edu͞projects͞rat) genomes, the challenge remains to correctly identify all of the encoded genes. Difficulty in deciphering the anatomy of mammalian genes is due to several factors, including large amounts of intervening (noncoding) sequence, the imperfection of gene-prediction algorithms (3), and the incompleteness of cDNA-sequence resources, many of which consist of gene tags of variable length and quality. Full-length cDNA sequences are extremely useful for determining the genomic structure of genes, especially when analyzed within the context of genomic sequence. To facilitate geneidentification efforts and to catalyze experimental investigation, the National Institutes of Health (NIH) launched the Mammalian Gene Collection (MGC) program (4) with the aim of providing freely accessible, high-quality sequences for validated, complete ORF cDNA clones. In this article, we describe our progress toward the goal of identifying and accurately sequencing at least one full ORF-containing cDNA clone for each human and mouse gene, as well as making these fully sequenced clones available without restriction. Materials and MethodscDNA Library Production. MGC cDNA libraries were prepared from a diverse set of tissues and cell lines, in several different vector systems, by using a variety of methods. Vector maps and details of library construction are available at http:͞͞mgc. nci.nih.gov͞Info͞VectorMaps. The complete sequences for each of the MGC vectors can be found at http:͞͞image.llnl.gov͞ image͞html͞vectors.shtml. The catalog of MGC cDNA libraries can be accessed at http:͞͞mgc.nci.nih.gov.

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Effect of a Virus on Accumulation of a Tissue-Specific Cell-Surface Protein of the FungusCryphonectria (Endothia) parasitica

Carpenter

Mueller²,

Kazmierczak³

et al. 1992

MPMI

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Virus-associated down-regulation of the gene encoding cryparin, an abundant cell-surface protein from the chestnut blight fungus, Cryphonectria parasitica

Zhang

Villalon

Sun

et al. 1994

Gene

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Expression of human adenosine deaminase in murine hematopoietic cells.

Belmont¹,

MacGregor²,

Wager-Smith³

et al. 1988

Mol. Cell. Biol.

109

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Multiple replication-defective retrovirus vectors were tested for their ability to transfer and express human adenosine deaminase in vitro and in vivo in a mouse bone marrow transplantation model. High-titer virus production was obtained from vectors by using both a retrovirus long terminal repeat promoter and internal transcriptional units with human c-fos and herpes virus thymidine kinase promoters. After infection of primary murine bone marrow with one of these vectors, human adenosine deaminase was detected in 60 to 85% of spleen colony-forming units and in the blood of 14 of 14 syngeneic marrow transplant recipients. This system offers the opportunity to assess methods for increasing efficiency of gene transfer, for regulation of expression of foreign genes in hematopoietic progenitors, and for long-term measurement of the stability of expression in these cells.

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Human adenosine deaminase expression in mice

Moore

Fletcher

Villalon

et al. 1990

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A replication defective retroviral vector containing a human adenosine deaminase (hADA) cDNA was produced by GP + E-86 packaging cells at high titer. We report long-term expression of hADA in the hematopoietic tissues of mice transplanted with bone marrow cells infected by in vitro co-cultivation with vector producing cells. Western analysis using an hADA-specific antibody allowed detection of the protein in the peripheral blood of all 37 transplanted mice for at least 9 weeks. Sixty-eight percent of the animals continued to express hADA in one or more of their hematopoietic tissues for the experimental period, and hADA was found in both spleen colonies and tissues of secondary recipients. There was provirus integration and expression in myeloid, erythroid, and lymphoid cell lineages, indicating extensive repopulation by the progeny of infected stem cells. The vector did not contain a selectable marker, and the infected stem cells did not have a competitive in vivo advantage. Nevertheless, we observed consistent gene transfer into hematopoietic stem cells and long-term expression of a human gene product in their progeny.

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Expression vectors for human adenosine deaminase gene therapy

Moore¹,

Fletcher²,

Alford³

et al. 1989

Genome

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Somatic gene transfer offers a possible new approach for treatment of human genetic disease. Defects affecting blood-forming tissues are candidates for therapies involving transfer of genetic information into hematopoietic stem cells. Adenosine deaminase (ADA) deficiency is being used as a model disease for which gene transfer techniques can be developed and evaluated. We describe here the construction and testing of 20 retroviral vectors for their ability to transfer and express human ADA in vitro and in vivo via a mouse bone marrow transplantation model. After infection of primary bone marrow with one fo these vectors (p delta NN2ADA), human ADA was detected in 60-85% of spleen colonies at day 14 and maintained long term in the blood of fully reconstituted mice. This system offers the opportunity to assess methods for increasing efficiency of gene transfer, for regulation of expression of foreign genes in hematopoietic progenitors, and for long-term measurement of the stability of expression in these cells.

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Stress-Related Genes in Woody Plants: Transcriptional and Post-Transcriptional Regulation

Cairney

Villalon

Chang

et al. 1996

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Expression of Human Adenosine Deaminase in Murine Hematopoietic Cells

Belmont

MacGregor

Wager-Smith

et al. 1988

Molecular and Cellular Biology

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