Abstract

Molecular and somatic cell genetic research is proposed to continue extensive gene mapping studies for characterizing the physical and genetic maps of the human. We will concentrate on understanding the chromosomal location and organization of growth control genes and the extent of their involvement and that of DNA segments in chromosomal rearrangements associated with cancer. The markers for mapping on human chromosomes include large numbers of (1) genes associated with metabolic disease and fatal disorders, (2) DNA segments assigned to highly specific chromosomal regions associated with Wilms' tumor (chromosome 11p13 deletion), small cell carcinoma of the lung (chromosome 3p14-23 deletion), Down's syndrome (chromosome 21q22), and breakpoints associated with non-random chromosomal rearrangement observed in specific cancers (11q13, 11q23, 3p13, 3p14, 3p21, 21q22), (3) genes associated with transformation that are induced in human cells by growth factors, epidermal growth factor and transforming growth factor-Alpha, which compete for the same receptor--the cellular homolog of the oncogene v-erb B, and (5) genes whose transcription is enhanced in leukemic cells. The gene markers will be chromosomally assigned by specific site in situ mapping and chromosome and regional mapping panels of somatic cell hybrids. DNA probes that map at a chromosome breakpoint or in a deletion associated with cancer will be characterized to determine sequences at break sites and adjacent probes to study these regions will be isolated by chromosome walking. All gene probes studied will be utilized to identify DNA polymorphisms (RFLPs) for linkage relationships, linear organization of the genome, and genetic counseling. The inherited nature of these DNA polymorphisms will be determined in 3 generation families. Genes associated with inherited disorders, abnormal growth and cancer will be mapped in the mouse using mouse-Chinese hamster cell hybrids to determine and predict human disease, evolution and chromosome assignment. Studies will be conducted to generate human-mouse cell hybrids that retain a single human chromosome for rapid gene mapping purposes. This research is designed to locate human genes associated with molecular disease and cancer to specific chromosomal sites for genetically understanding human disease, gene organization and control, and for genetic diagnosis and counseling.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Human Genome Research Institute (NHGRI)
Type
Research Project (R01)
Project #
8R01HG000333-18
Application #
3333454
Study Section
Mammalian Genetics Study Section (MGN)
Project Start
1976-06-01
Project End
1991-07-31
Budget Start
1990-08-01
Budget End
1991-07-31
Support Year
18
Fiscal Year
1990
Total Cost
Indirect Cost

  Institution

Name
Roswell Park Cancer Institute Corp
Department
Type
DUNS #
City
Buffalo
State
NY
Country
United States
Zip Code
14263

  Publications

Penziner, Elizabeth; Williams, Janet K; Erwin, Cheryl et al. (2008) Perceptions of discrimination among persons who have undergone predictive testing for Huntington's disease. Am J Med Genet B Neuropsychiatr Genet 147:320-5
Zhang, J; Qin, S; Sait, S N et al. (2001) The pericentromeric region of human chromosome 11: evidence for a chromosome-specific duplication. Cytogenet Cell Genet 94:137-41
Scott, I C; Clark, T G; Takahara, K et al. (1999) Assignment of TLL1 and TLL2, which encode human BMP-1/Tolloid-related metalloproteases, to chromosomes 4q32-->q33 and 10q23-->q24 and assignment of murine Tll2 to chromosome 19. Cytogenet Cell Genet 86:64-5
Weber, T K; Conroy, J; Keitz, B et al. (1999) Genome-wide allelotyping indicates increased loss of heterozygosity on 9p and 14q in early age of onset colorectal cancer. Cytogenet Cell Genet 86:142-7
Stumpo, D J; Eddy Jr, R L; Haley, L L et al. (1998) Promoter sequence, expression, and fine chromosomal mapping of the human gene (MLP) encoding the MARCKS-like protein: identification of neighboring and linked polymorphic loci for MLP and MACS and use in the evaluation of human neural tube defects. Genomics 49:253-64
Higgins, M J; Day, C D; Smilinich, N J et al. (1998) Contig maps and genomic sequencing identify candidate genes in the usher 1C locus. Genome Res 8:57-68
Cooper, P R; Smilinich, N J; Day, C D et al. (1998) Divergently transcribed overlapping genes expressed in liver and kidney and located in the 11p15.5 imprinted domain. Genomics 49:38-51
Varon, R; Vissinga, C; Platzer, M et al. (1998) Nibrin, a novel DNA double-strand break repair protein, is mutated in Nijmegen breakage syndrome. Cell 93:467-76
Watson Jr, B; Nowak, N J; Myracle, A D et al. (1997) The human angiotensinase C gene (HUMPCP) maps to 11q14 within 700 kb of D11S901: a candidate gene for essential hypertension. Genomics 44:365-7
Crider-Miller, S J; Reid, L H; Higgins, M J et al. (1997) Novel transcribed sequences within the BWS/WT2 region in 11p15.5: tissue-specific expression correlates with cancer type. Genomics 46:355-63

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