The proposed experiments are designed to examine the level, nature, organization and significance of naturally occurring DNA sequence variation in two large, well characterized regions of the Drosophila melanogaster genome (rosy-Ace region and Bithorax Complex). Four nested levels are proposed. The first involves examining three large samples of chromosomes from natural populations of D. melanogaster for DNA sequence variability using four six-base restriction endonucleases. The regions to be studied are the 315 kb rosy-Ace region of the third chromosome, and the nearby 400 kb Bithorax Complex. Questions to be addressed include: 1) Does a correlation exist between transcriptional activity of a region and the level of nucleotide and/or insertion/deletion polymorphism? 2) Is there evidence of insertional hotspots for transposable elements? 3) How is the variation at different genes along the sequence organized? Are nonrandom associations associated with clusters of functionally related genes? 4) Does the pattern of nonrandom association reflect variation in the rates of recombination through these regions? The second level of examination will be by four-base restriction analysis of the rosy locus. This approach will allow the examination of approximately 20% of the nucleotides in a 10 kb region in several hundred lines. The third level of the project will be to ask how variation at the DNA level is related to variation at the """"""""phenotypic"""""""" level by quantitating levels of expression for rosy and Ace. Twenty lines of divergent haplotype, allozyme and activity will be selected for complete DNA sequencing of Xdh (level 4). These data will allow more refined answers to questions 1, 3 and 4 above as well as the contribution of intragenic recombination to allelic diversity segregating in natural populations.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM036431-03
Application #
3290393
Study Section
Genetics Study Section (GEN)
Project Start
1986-04-01
Project End
1989-03-31
Budget Start
1988-04-01
Budget End
1989-03-31
Support Year
3
Fiscal Year
1988
Total Cost
Indirect Cost
Name
Cornell University
Department
Type
Schools of Arts and Sciences
DUNS #
City
Ithaca
State
NY
Country
United States
Zip Code
14850
Singh, Nadia D; Stone, Eric A; Aquadro, Charles F et al. (2013) Fine-scale heterogeneity in crossover rate in the garnet-scalloped region of the Drosophila melanogaster X chromosome. Genetics 194:375-87
Clark, Nathan L; Alani, Eric; Aquadro, Charles F (2013) Evolutionary rate covariation in meiotic proteins results from fluctuating evolutionary pressure in yeasts and mammals. Genetics 193:529-38
Singh, Nadia D; Jensen, Jeffrey D; Clark, Andrew G et al. (2013) Inferences of demography and selection in an African population of Drosophila melanogaster. Genetics 193:215-28
Clark, Nathan L; Alani, Eric; Aquadro, Charles F (2012) Evolutionary rate covariation reveals shared functionality and coexpression of genes. Genome Res 22:714-20
Wong, Alex; Turchin, Michael; Wolfner, Mariana F et al. (2012) Temporally variable selection on proteolysis-related reproductive tract proteins in Drosophila. Mol Biol Evol 29:229-38
Clark, Nathaniel L; Aquadro, Charles F (2010) A novel method to detect proteins evolving at correlated rates: identifying new functional relationships between coevolving proteins. Mol Biol Evol 27:1152-61
Singh, Nadia D; Arndt, Peter F; Clark, Andrew G et al. (2009) Strong evidence for lineage and sequence specificity of substitution rates and patterns in Drosophila. Mol Biol Evol 26:1591-605
Zamora, Alejandro; Sun, Qi; Hamblin, Martha T et al. (2009) Positively selected disease response orthologous gene sets in the cereals identified using Sorghum bicolor L. Moench expression profiles and comparative genomics. Mol Biol Evol 26:2015-30
Clark, Nathaniel L; Gasper, Joe; Sekino, Masashi et al. (2009) Coevolution of interacting fertilization proteins. PLoS Genet 5:e1000570
Rebeiz, Mark; Pool, John E; Kassner, Victoria A et al. (2009) Stepwise modification of a modular enhancer underlies adaptation in a Drosophila population. Science 326:1663-7

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