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Full-Text Articles in Cell Biology

Histone Deacetylase 3 Coordinates Heart Development Through Stage-Specific Roles In Cardiac Progenitor Cells, Sara L. Lewandowski Dec 2016

Histone Deacetylase 3 Coordinates Heart Development Through Stage-Specific Roles In Cardiac Progenitor Cells, Sara L. Lewandowski

GSBS Dissertations and Theses

Disruptions in cardiac development cause congenital heart disease, the most prevalent and deadly congenital malformation. Genetic and environmental factors are thought to contribute to these defects, however molecular mechanisms remain largely undefined. Recent work highlighted potential roles of chromatin- modifying enzymes in congenital heart disease pathogenesis. Histone deacetylases, a class of chromatin-modifying enzymes, have developmental importance and recognized roles in the mature heart. This thesis aimed to characterize functions of Hdac3 in cardiac development. We found loss of Hdac3 in the primary heart field causes precocious progenitor cell differentiation, resulting in hypoplastic ventricular walls, ventricular septal defect, and mid- gestational ...


Dna Methylation Directs Genomic Localization Of Mbd2 And Mbd3 In Embryonic Stem Cells, Sarah J. Hainer, Kurtis N. Mccannell, Jun Yu, Ly-Sha Ee, Lihua (Julie) Zhu, Oliver J. Rando, Thomas G. Fazzio Nov 2016

Dna Methylation Directs Genomic Localization Of Mbd2 And Mbd3 In Embryonic Stem Cells, Sarah J. Hainer, Kurtis N. Mccannell, Jun Yu, Ly-Sha Ee, Lihua (Julie) Zhu, Oliver J. Rando, Thomas G. Fazzio

Open Access Articles

Cytosine methylation is an epigenetic and regulatory mark that functions in part through recruitment of chromatin remodeling complexes containing methyl-CpG binding domain (MBD) proteins. Two MBD proteins, Mbd2 and Mbd3, were previously shown to bind methylated or hydroxymethylated DNA, respectively; however, both of these findings have been disputed. Here, we investigated this controversy using experimental approaches and re-analysis of published data and find no evidence for methylation-independent functions of Mbd2 or Mbd3. We show that chromatin localization of Mbd2 and Mbd3 is highly overlapping and, unexpectedly, we find Mbd2 and Mbd3 are interdependent for chromatin association. Further investigation reveals that ...


Regulation Of Chaperone Binding And Nucleosome Dynamics By Key Residues Within The Globular Domain Of Histone H3, Sarah J. Hainer, Joseph A. Martens Apr 2016

Regulation Of Chaperone Binding And Nucleosome Dynamics By Key Residues Within The Globular Domain Of Histone H3, Sarah J. Hainer, Joseph A. Martens

Open Access Articles

BACKGROUND: Nucleosomes have an important role in modulating access of DNA by regulatory factors. The role specific histone residues have in this process has been shown to be an important mechanism of transcription regulation. Previously, we identified eight amino acids in histones H3 and H4 that are required for nucleosome occupancy over highly transcribed regions of the genome.

RESULTS: We investigate the mechanism through which three of these previously identified histone H3 amino acids regulate nucleosome architecture. We find that histone H3 K122, Q120, and R49 are required for Spt2, Spt6, and Spt16 occupancies at genomic locations where transcription rates ...


Xist And Cot-1 Repeat Rnas Are Integral Components Of A Complex Nuclear Scaffold Required To Maintain Saf-A And Modify Chromosome Architecture: A Dissertation, Heather J. Kolpa Apr 2016

Xist And Cot-1 Repeat Rnas Are Integral Components Of A Complex Nuclear Scaffold Required To Maintain Saf-A And Modify Chromosome Architecture: A Dissertation, Heather J. Kolpa

GSBS Dissertations and Theses

XIST RNA established the precedent for a noncoding RNA that stably associates with and regulates chromatin, however it remains poorly understood how such RNAs structurally associate with the interphase chromosome territory. I demonstrate that transgenic XIST RNA localizes in cis to an autosome as it does to the inactive X chromosome, hence the RNA recognizes a structure common to all chromosomes. I reassess the prevalent thinking in the field that a single protein, Scaffold Attachment Factor-A (SAF-A/hnRNP U), provides a single molecule bridge required to directly tether the RNA to DNA. In an extensive series of experiments in multiple ...


Characterization Of Higher-Order Chromatin Structure In Bone Differentiation And Breast Cancer: A Dissertation, Ahmet Rasim Barutcu Feb 2016

Characterization Of Higher-Order Chromatin Structure In Bone Differentiation And Breast Cancer: A Dissertation, Ahmet Rasim Barutcu

GSBS Dissertations and Theses

Higher-order genome organization is important for the regulation of gene expression by bringing different cis-regulatory elements and promoters in proximity. The establishment and maintenance of long-range chromatin interactions occur in response to cellular and environmental cues with the binding of transcription factors and chromatin modifiers. Understanding the organization of the nucleus in differentiation and cancer has been a long standing challenge and is still not well-understood. In this thesis, I explore the dynamic changes in the higher-order chromatin structure in bone differentiation and breast cancer. First, we show dynamic chromatin contact between a distal regulatory element and the promoter of ...


The Mitotic Genome: Accessibility And Transcriptional Control, Chris Hsiung Jan 2016

The Mitotic Genome: Accessibility And Transcriptional Control, Chris Hsiung

Publicly Accessible Penn Dissertations

Mitosis entails dramatic global alterations to genome structure and regulation, including

chromosome condensation, dissociation of the transcriptional machinery from chromosomes, and transcriptional silencing. Here I report studies that address the macromolecular accessibility of the mitotic genome and the control of transcriptional reactivation upon mitotic exit in a mammalian cell line. The results obtained from measuring the sensitivity of chromatin to DNase I cleavage by sequencing (DNase-seq) in pure mitotic cell populations demonstrate that macromolecular accessibility of the mitotic genome is widely preserved. Thus, steric hindrance from chromatin condensation is insufficient for explaining the eviction of transcription factors from mitotic chromatin ...


Interplay Between P53 And Epigenetic Pathways In Cancer, Jiajun Zhu Jan 2016

Interplay Between P53 And Epigenetic Pathways In Cancer, Jiajun Zhu

Publicly Accessible Penn Dissertations

The human TP53 gene encodes the most potent tumor suppressor protein p53. More than half of all human cancers contain mutations in the TP53 gene, while the majority of the remaining cases involve other mechanisms to inactivate wild-type p53 function. In the first part of my dissertation research, I have explored the mechanism of suppressed wild-type p53 activity in teratocarcinoma. In the teratocarcinoma cell line NTera2, we show that wild-type p53 is mono-methylated at Lysine 370 and Lysine 382. These post-translational modifications contribute to the compromised tumor suppressive activity of p53 despite a high level of wild-type protein in NTera2 ...