Our aim is to understand the molecular organization and the control of genetic expression of the mouse X and 7 chromosomes. We have isolated and characterized DNA fragments specific to these two mouse chromosomes. We are using these chromosome specific probes to study the mechanism of X inactivation and its spreading in an X;7 chromosomal translacation. We plan to characterize one of the X-specific fragments which is expressed in mouse liver, by nucleotide sequencing of the genomic clone and comparison with its corresponding cDNA. DNA methylation of X-chromosome specific fragments will be compared between male and female mouse DNA to determine if methylation changes occur with X chromosome inactivation. Chromatin structure changes associated with X inactivation will be studied by determining the nuclease sensitivity of specific X-chromosomal loci during inactivation. A restriction enzyme will be chosen for these experiments that distinguishes maternal and paternal X chromosomes on the basis of a DNA restriction site polymorphism (between mouse strains or mouse species). For these experiments, chromatin will be extracted from cloned cell lines that carry either the paternal or maternal X chromosome in an active state, or from extraembryonic membranes which demonstrate preferential paternal X inactivation. To construct a complete correlated genetic and molecular mouse X-chromosome linkage map, mouse X-chromosome fragments already isolated and additional fragments will be localized to the mouse X chromosome by in situ hybridization and the use of recombinant inbred strains of mice. To construct a molecular map of the developmentally important albino locus, a mouse chromosome 7-fragment that we have isolated will be used to isolate additional DNA fragments around that locus. The fragment isolated is located in the overlapping portion of two albino deletions, c3H and c6H. These deletions affect embryogenesis and modify the expresion of several liver enzymes. Chromosome 7-specific DNA fragments will also be used to study the effects of X inactivation on the autosomal portion of the X;7 chromosomal translocation.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM030476-06
Application #
3278263
Study Section
Mammalian Genetics Study Section (MGN)
Project Start
1982-05-01
Project End
1989-04-30
Budget Start
1987-05-01
Budget End
1989-04-30
Support Year
6
Fiscal Year
1987
Total Cost
Indirect Cost
Name
University of Washington
Department
Type
Schools of Medicine
DUNS #
135646524
City
Seattle
State
WA
Country
United States
Zip Code
98195
Chapman, V M; Stephenson, D A; Mullins, L J et al. (1991) Linkage of the erythroid transcription factor gene (Gf-1) to the proximal region of the X chromosome of mice. Genomics 9:309-13
Schorderet, D F; Friedman, C; Disteche, C M (1991) Pericentric inversion of the X chromosome: presentation of a case and review of the literature. Ann Genet 34:98-103
Disteche, C M; Adler, D A (1990) Localization of a mouse centromeric DNA repeat in interphase nuclei. Cytometry 11:119-25
Page, D C; Disteche, C M; Simpson, E M et al. (1990) Chromosomal localization of ZFX--a human gene that escapes X inactivation--and its murine homologs. Genomics 7:37-46
Tedder, T F; Isaacs, C M; Ernst, T J et al. (1989) Isolation and chromosomal localization of cDNAs encoding a novel human lymphocyte cell surface molecule, LAM-1. Homology with the mouse lymphocyte homing receptor and other human adhesion proteins. J Exp Med 170:123-33
Disteche, C M; McConnell, G K; Grant, S G et al. (1989) Comparison of the physical and recombination maps of the mouse X chromosome. Genomics 5:177-84
Tedder, T F; Disteche, C M; Louie, E et al. (1989) The gene that encodes the human CD20 (B1) differentiation antigen is located on chromosome 11 near the t(11;14)(q13;q32) translocation site. J Immunol 142:2555-9
Tedder, T F; Klejman, G; Disteche, C M et al. (1988) Cloning of a complementary DNA encoding a new mouse B lymphocyte differentiation antigen, homologous to the human B1 (CD20) antigen, and localization of the gene to chromosome 19. J Immunol 141:4388-94
Disteche, C M; Gandy, S L; Adler, D A (1987) Translocation and amplification of an X-chromosome DNA repeat in inbred strains of mice. Nucleic Acids Res 15:4393-401
Disteche, C M; Saal, H; Friedman, C et al. (1986) Quantitative analysis of sex-chromosome mosaicism with X-Y DNA probes. Am J Hum Genet 38:751-8

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