PROJECT SUMMARY The male-specific Y chromosome is critical for sex determination and fertility. Yet, because of its highly repetitive structure and haploidy, its sequence has only been deciphered for a handful of mammalian species, including just three apes ? human, chimpanzee, and gorilla. The lack of Y chromosome sequences has made it difficult to obtain a complete picture of mammalian genome evolution, and has hampered studies of sex- specific dynamics in natural populations. In this project, we have chosen to study evolution of ape Y chromosomes because they differ enormously among species at the cytogenetic level, and because mating and dispersal patterns, which influence selection and genetic drift acting on the Y, vary dramatically among apes. Our goal is to decipher the evolutionary processes shaping ape Y chromosome evolution by examining Y interspecific divergence and intraspecific diversity. In Aim 1 we will study evolution of ape Y chromosome architecture. Applying our novel method based on the latest experimental and computational techniques, we assembled the Y chromosomes of gorilla, bonobo, and Bornean orangutan. Using these and publicly available ape Y assemblies in a phylogenetic framework, we will study several features of Y chromosome architecture: sequence divergence, gene content, and transposable element accumulation. Instances of lineage-specific accelerated or decelerated evolution of Y chromosome evolution will be identified and their causes will be explored in subsequent aims. In Aim 2 we will investigate evolutionary forces affecting global Y chromosome architecture by studying Y chromosome diversity. We will test whether the observed diversity patterns, as inferred from publicly available and in-house generated re-sequencing data, are consistent with random genetic drift or with positive or negative selection. In Aims 3 and 4, the selection targets will be identified. In Aim 3, we will decipher the individual gene sequences from short- and long-read transcriptome assemblies, construct gene phylogenies, and test for lineage-specific selection acting on individual genes and on individual gene copies for multi-copy gene families. Aim 4 will evaluate potential selection acting on the expression levels and copy number of multi-copy ampliconic gene families on the Y chromosome. These genes are expressed during spermatogenesis and their deletions have been implicated in human male infertility. Overall, our project will have important implications for uncovering the intricacies of ape genome evolution. The ape Y chromosome assemblies, alignments, and transcript catalogues will serve as an invaluable resource for addressing a myriad of long-standing biological questions and for designing genetic markers to trace the dispersal of male apes in the wild. This is critical, as all studied ape species are endangered. The techniques developed for this project will be shared with other researchers, enabling them to study Y chromosomes of other species. Our thorough investigation of evolution of ampliconic gene sequence, expression levels, and copy number will significantly contribute to our understanding of the causes of male infertility.
|Effective start/end date||2/1/19 → 1/31/23|
- National Institutes of Health: $415,602.00
DNA Transposable Elements