Graduation Semester and Year
2021
Language
English
Document Type
Dissertation
Degree Name
Doctor of Philosophy in Quantitative Biology
Department
Biology
First Advisor
Esther Betrán
Abstract
Among several mechanisms, whole gene duplication is one of the major sources for the generation of new genes. A large portion of young genes that emerged through whole gene duplication in Drosophila are specifically expressed in the testes and fast evolving, i.e., their proteins are changing very fast between species under positive selection. In this dissertation, we have studied the rates of duplications and functions of newly duplicated genes in three different projects to understand the evolutionary pressures/drivers of this gene innovation. Chapter 1 is an introductory section. In Chapter 2, by using a comprehensive, detailed phylogenomic study, we examined the duplications of nuclear transport genes (131 genes) in 22 species of Drosophila because best well-known meiotic drive systems involve duplication of a nuclear transport gene and explored if those duplications exist in 29 non-Drosophila insects. This broad examination revealed the components of nuclear transport that might be under selection in testes, that the selective pressures exist mainly in Drosophila, and that RNA-mediated duplications are the major contributors to these patterns. In Chapter 3 of this dissertation, we investigated the function of two nuclear transport duplicated genes (Ntf-2r & Ran-like) in D. melanogaster. In Chapter 4, the function of a nuclearly encoded mitochondrial gene duplicate (COX4L) is studied. These duplicates' parental genes (Ntf-2, Ran, and COX4) are essential genes with a broad expression, while the duplicates are testis specific. We utilized different techniques to study the function of those genes. Some of the approaches include generating knock-out mutants of the duplicated genes using CRISPR-Cas9 technology to understand how the absence of these genes affects fertility in male, studying gene expression in these knock-out flies by RNA-seq analysis or tagging the proteins produced by those genes to study their localization. These functional studies of testis-biased duplicated genes in Drosophila has expanded our understanding of the processes they affect and the selective advantages they may provide for the organism and contribute to explaining their retention in the male germline.
Keywords
Gene duplication, Genetic novelty, Drosophila
Disciplines
Biology | Life Sciences
License
This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Recommended Citation
Mirsalehi, Seyedeh, "GENETIC INNOVATION THROUGH GENE DUPLICATION IN DROSOPHILA" (2021). Biology Dissertations. 197.
https://mavmatrix.uta.edu/biology_dissertations/197
Comments
Degree granted by The University of Texas at Arlington