A reoccurri ng observation in the study of genes involved in reproduction is their rapid, adaptive divergence. We have demonstrated the rapid di vergence oft en genes involved in reproduction by analyses of rates and patterns of di verge nce between primates. The goal of this proposal is to initiate st ud ies of the levels and types of human single nucleot ide polymorph isms for genes involved in reproduction, which will lay the fo undation for future assoc iat ions studies in vestigating unexplained failed in vitro fert ilization. The high d ivergence of amino acid seq uence between species for reproductivc proteins raises the quest ion of whether amino acid polymorphi sms with in humans could contribute to infe rtility. T he fundamenta l hypothes is is that a missmatch ofspcrm egg recognition molecules may lower the p robability of succcssful fer tilizatio n, resu lting in fa ilure of ill ,Iitro fertilization tria ls. This would be analogous to matches in major-bi stocompatib ilitycomplex molecules necessary for successful skin grafts or matching blood types for transfu s ions. Other animals (internal and external fert ilizers) exhibit extreme variation in the ability of males to successfully fert il ize fema les, which has been shown to be dependent upon both male and female genotype. Thi s characterization of polymorphi sm leve ls within humans at reproductive loci may prov ide insight into some cases on unexplained inferti lity, which accounts for approximately 10% of fa iled in vitro fe l1 ilization tria ls. """"""""Unexplained infe rtil ity""""""""'are cases where sperm and eggs appear nonnal, but fert ilizat ion fa ils for unknown reasons. This proposal aims to in vestigate the ge netic bas is for unexplai ned infertility.

Public Health Relevance

Our proposed project is aimed at understand ing unexplained in fert ility during in vitro fert ilization trials. It is estimated that one in every 150 children born have been conceived using assisted re prodllcti vc technology, and it is a general interest to the health sciences to understand infertili ty. This proposal prcsents a novel direction for the study of human infert ility. Addit ionally, it is of genera l interest to determine the extent of positive selection acting lI pon human genes. Po lymorphi sm surveys such as the one described in this proposal are the best means to identify recent adaptive evolution. In severa l human diseases that have been mapped to specific genes, analyses of the genes show that their d iverge nce has been subjected to positive selection wi thin humans. These include the breast cancer gene BRCA I, a dopamine receptor (DRD4) implicated in attent ion deficit hyperactivity disorder, and the MMP3 gene implicated in heart disease risk. An understand ing of posi tive se lection in humans may provide clues into the assoc iation between ada ptive evolut ion and disease. The genera lity of positive selection in reproductive prote ins makes them a good class of molecules for such studies.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
2R01HD042563-06
Application #
7523084
Study Section
Genetic Variation and Evolution Study Section (GVE)
Program Officer
Taymans, Susan
Project Start
2002-07-01
Project End
2011-07-31
Budget Start
2009-08-24
Budget End
2010-07-31
Support Year
6
Fiscal Year
2009
Total Cost
$383,936
Indirect Cost
Name
University of Washington
Department
Genetics
Type
Schools of Medicine
DUNS #
605799469
City
Seattle
State
WA
Country
United States
Zip Code
98195
Claw, Katrina G; George, Renee D; MacCoss, Michael J et al. (2018) Quantitative evolutionary proteomics of seminal fluid from primates with different mating systems. BMC Genomics 19:488
Claw, Katrina G; George, Renee D; Swanson, Willie J (2014) Detecting coevolution in mammalian sperm-egg fusion proteins. Mol Reprod Dev 81:531-8
Palmer, Melody R; McDowall, Margo H; Stewart, Lia et al. (2013) Mass spectrometry and next-generation sequencing reveal an abundant and rapidly evolving abalone sperm protein. Mol Reprod Dev 80:460-5
Aagaard, Jan E; Springer, Stevan A; Soelberg, Scott D et al. (2013) Duplicate abalone egg coat proteins bind sperm lysin similarly, but evolve oppositely, consistent with molecular mimicry at fertilization. PLoS Genet 9:e1003287
Claw, Katrina G; Swanson, Willie J (2012) Evolution of the egg: new findings and challenges. Annu Rev Genomics Hum Genet 13:109-25
Hellberg, Michael E; Dennis, Alice B; Arbour-Reily, Patricia et al. (2012) The Tegula tango: a coevolutionary dance of interacting, positively selected sperm and egg proteins. Evolution 66:1681-94
Vacquier, Victor D; Swanson, Willie J (2011) Selection in the rapid evolution of gamete recognition proteins in marine invertebrates. Cold Spring Harb Perspect Biol 3:a002931
Springer, Stevan A; Crespi, Bernard J; Swanson, Willie J (2011) Beyond the phenotypic gambit: molecular behavioural ecology and the evolution of genetic architecture. Mol Ecol 20:2240-57
Swanson, Willie J; Aagaard, Jan E; Vacquier, Victor D et al. (2011) The molecular basis of sex: linking yeast to human. Mol Biol Evol 28:1963-6
Rohlfs, Rori V; Swanson, Willie J; Weir, Bruce S (2010) Detecting coevolution through allelic association between physically unlinked loci. Am J Hum Genet 86:674-85

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