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Genomic and Epigenomic Attributes of Alpha Satellite Underlying Function Within the Human Centromere Region

dc.contributor.advisor Sullivan, Beth A
dc.contributor.author McNulty, Shannon Michelle
dc.date.accessioned 2019-04-02T16:26:57Z
dc.date.issued 2018
dc.identifier.uri https://hdl.handle.net/10161/18212
dc.description Dissertation
dc.description.abstract <p>The centromere serves as the foundation for the kinetochore and attachment point for spindle microtubules during metaphase. The proper function of this locus is required to ensure chromosome segregation and genomic stability. In humans, repetitive alpha satellite DNA underlies the human centromere region and is organized into specific chromatin domains that are maintained by a complex combination of factors. Although the centromere region is generally thought to be specified epigenetically, some evidence suggests that the underlying DNA sequence is also involved in centromere function. To better define links between alpha satellite and function within the human centromere region, we investigated two attributes of alpha satellite DNA: its transcription into noncoding alpha satellite RNAs and genomic variation within the alpha satellite array. Noncoding transcripts produced from alpha satellite DNA are associated with normal centromere and pericentromere function and evidence from other organisms suggests RNAs from this region are pivotal in the centromere and kinetochore assembly cascade and in maintaining the chromatin environments of the centromere region. However, alpha satellite RNAs have not yet been fully characterized and data reflecting the chromosome-specific nature of alpha satellite arrays is lacking. Additionally, genomic variation within alpha satellite arrays has been linked to reduced centromere protein recruitment and chromosome instability, yet the molecular basis for this is unknown. These gaps in knowledge have stymied our understanding of the role of genomic and epigenetic attributes of alpha satellite that affect function within the human centromere region. Thus, this work aims to functionally characterize the role of alpha satellite transcripts and to determine how genomic variation impacts chromosome stability. Utilizing cytological and molecular techniques that allow the differentiation of alpha satellite RNAs from individual chromosomes and arrays, we have demonstrated that each chromosome produces unique noncoding RNAs that localize in cis to their site of production. Both centromeric and pericentromeric alpha satellite arrays produce noncoding RNAs, but these transcripts are spatially and functionally distinct. Alpha satellite RNAs from the centromere bind at least two key centromere proteins: CENP-A and CENP-C, while alpha satellite RNAs from the pericentromere colocalize with SUV39H1. Centromeric alpha satellite RNAs are required for complete loading of new CENP-A-containing nucleosomes, as well as maintenance of CENP-C levels. Genomic variation affects the origin of alpha satellite transcripts, such that highly variant arrays produce a different set of transcripts than wild type arrays. Further, the long-range organization of variation across the alpha satellite array in unstable chromosomes suggests certain spatial organizations of variation are poor platforms for building a stable centromere and kinetochore. Collectively, these findings implicate alpha satellite RNA and genomic variation and/or the interplay of these two elements as essential factors in the function of the human centromere region.</p>
dc.subject Genetics
dc.subject Molecular biology
dc.subject Cellular biology
dc.subject Alpha satellite
dc.subject Centromere
dc.subject Epiallele
dc.subject Noncoding RNA
dc.subject Transcription
dc.subject Variation
dc.title Genomic and Epigenomic Attributes of Alpha Satellite Underlying Function Within the Human Centromere Region
dc.type Dissertation
dc.department Molecular Genetics and Microbiology
duke.embargo.months 9
duke.embargo.release 2020-01-09T00:00:00Z


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