The aim of this project to study the genetic mechanisms involved in the evolution of sex chromosomes. The results will have general importance for the understanding of sex chromosomes. Many human genetic disorders are caused by sex chromosome abnormalities, and a better understanding of the factors involved in the organization of sex chromosomes will help in their elucidation. The genetics of the sex chromosomes of a flowering plant, Silene latifolia, will be studied, using natural molecular variation as a source of markers. Once variable loci have been found, crosses will be set up to study their linkage relations, and to identify the sex-linked loci among them. Given such loci, genetic studies of a plant sex chromosome will be possible. We will determine which loci have active copies on both the X and Y chromosomes, and whether they are present in the pairing or differential segments of the sex chromosomes. We will also examine mutant sex chromosomes to determine in what ways the genetic map is altered when different mutants sex phenotypes arise. We shall also study the levels of expression of any loci which are hemizygous in males, to determine whether dosage compensation happens in a plant species. Families of transposable elements from Drosophila americana will be cloned and their distribution in the genome characterized by in situ hybridization of element probes to polytene chromosomes.
The aim i s to determine whether or not transposable elements are more abundant on the neo-Y chromosome of this species than in the euchromatin of the other chromosome arms, and on the homologous arm of its relatives, which is autosomal. Such an accumulation is expected both on theoretical grounds, and from empirical evidence that elements tend to acuminate where recombination is restricted.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Program Projects (P01)
Project #
5P01GM050355-02
Application #
3734987
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
1995
Total Cost
Indirect Cost
Name
University of Chicago
Department
Type
DUNS #
225410919
City
Chicago
State
IL
Country
United States
Zip Code
60637
Yi, S; Charlesworth, B (2000) Contrasting patterns of molecular evolution of the genes on the new and old sex chromosomes of Drosophila miranda. Mol Biol Evol 17:703-17
McAllister, B F; Charlesworth, B (1999) Reduced sequence variability on the Neo-Y chromosome of Drosophila americana americana. Genetics 153:221-33
Charlesworth, D; Liu, F L; Zhang, L (1998) The evolution of the alcohol dehydrogenase gene family by loss of introns in plants of the genus Leavenworthia (Brassicaceae). Mol Biol Evol 15:552-9
Liu, F; Zhang, L; Charlesworth, D (1998) Genetic diversity in Leavenworthia populations with different inbreeding levels. Proc Biol Sci 265:293-301
Charlesworth, D; Yang, Z (1998) Allozyme diversity in Leavenworthia populations with different inbreeding levels. Heredity 81 ( Pt 4):453-61
Zeng, L W; Comeron, J M; Chen, B et al. (1998) The molecular clock revisited: the rate of synonymous vs. replacement change in Drosophila. Genetica 102-103:369-82
Bergelson, J; Stahl, E; Dudek, S et al. (1998) Genetic variation within and among populations of Arabidopsis thaliana. Genetics 148:1311-23
Coyne, J A; Simeonidis, S; Rooney, P (1998) Relative paucity of genes causing inviability in hybrids between Drosophila melanogaster and D. simulans. Genetics 150:1091-103
Coyne, J A; Charlesworth, B (1997) Genetics of a pheromonal difference affecting sexual isolation between Drosophila mauritiana and D. sechellia. Genetics 145:1015-30
Charlesworth, B; Nordborg, M; Charlesworth, D (1997) The effects of local selection, balanced polymorphism and background selection on equilibrium patterns of genetic diversity in subdivided populations. Genet Res 70:155-74

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