Thesis advisor: Charles Hoffman / Faithful chromosome segregation is necessary for the successful completion of mitosis and meiosis. The centromere is the site of kinetochore and microtubule attachment during chromosome segregation, and it is critical that the centromere is properly formed and maintained. Many proteins contribute to centromere formation, and this process has been extensively studied during the mitotic cell cycle. However, the roles of the centromere and its associated proteins during meiosis and their contribution to the fidelity of chromosome segregation process are not as well understood. Here, I aim to elucidate a mechanism that may contribute to aneuploidy in gametes, which is a major contributing factor in human infertility. In this study, I investigate the role of Abp1, the most prominent member of the transposase-derived protein family homologous to mammalian CENP-B in the assembly of centromeric chromatin during meiosis in the fission yeast Schizosaccharomyces pombe. I reveal that in contrast to its known role as a major regulator of LTR retrotransposons during the mitotic and meiotic cell cycles, Abp1 has a specialized role at the centromere during meiosis. My results indicate that Abp1 displays dynamic localization to the centromeres during meiosis compared to the vegetative cell cycle. I show that loss of abp1 impairs pericentromeric heterochromatin and the localization of Cnp1, a CENP-A ortholog, to the centromere central cores during meiosis. Moreover, Abp1 appears to suppress formation of meiotic neocentromeres by restricting deposition of Cnp1 at certain heterochromatin loci. Loss of abp1 has a drastic effect on chromosome segregation, resulting in dramatic frequency of aneuploidy. Furthermore, the genome surveillance role for retrotransposons by Abp1 appears to encompass centromeres as the mere insertion of an LTR sequence within the centromere central cores further exacerbates incidence of meiotic aneuploidy in abp1 null cells. This study provides intriguing insights into factors controlling the assembly of centromeric chromatin and its impact on the fidelity of chromosome segregation process during meiosis with important implications for advancing our understanding of the evolutionary forces driving the evolution of eukaryotic centromeres. / Thesis (PhD) — Boston College, 2016. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Biology.
Identifer | oai:union.ndltd.org:BOSTON/oai:dlib.bc.edu:bc-ir_107029 |
Date | January 2016 |
Creators | Meyer, Lauren Francis |
Publisher | Boston College |
Source Sets | Boston College |
Language | English |
Detected Language | English |
Type | Text, thesis |
Format | electronic, application/pdf |
Rights | Copyright is held by the author, with all rights reserved, unless otherwise noted. |
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