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Full-Text Articles in Cell Biology

Higher-Order Unfolding Of Peri/Centric Satellite Heterochromatin Is An Early And Consistent Event In Cell Senescence: A Dissertation, Eric C. Swanson Dec 2014

Higher-Order Unfolding Of Peri/Centric Satellite Heterochromatin Is An Early And Consistent Event In Cell Senescence: A Dissertation, Eric C. Swanson

GSBS Dissertations and Theses

Cellular senescence is thought to play an essential role in many biological functions including tumor suppression and organismal aging. Senescent cells, which are permanently removed from the cell cycle, can be found both in vivo in many different tissue types and in vitro within cultures of non-immortalized cells. Despite their inability to proliferate, these cells persist and remain metabolically active for indefinite periods of time. This physiologic process occurs in response to a variety of cellular insults including oxidative stress, shortened telomeres, constitutive oncogene expression, and DNA damage, and can be initiated by upregulation of one of the two known ...


Gene Expression Profiling Identifies The Zinc-Finger Protein Charlatan As A Regulator Of Intestinal Stem Cells In Drosophila, Alla Amcheslavsky, Yingchao Nie, Qi Li, Feng He, Leo Tsuda, Michele Markstein, Y. Tony Ip Jul 2014

Gene Expression Profiling Identifies The Zinc-Finger Protein Charlatan As A Regulator Of Intestinal Stem Cells In Drosophila, Alla Amcheslavsky, Yingchao Nie, Qi Li, Feng He, Leo Tsuda, Michele Markstein, Y. Tony Ip

UMass Center for Clinical and Translational Science Supported Publications

Intestinal stem cells (ISCs) in the adult Drosophila midgut can respond to tissue damage and support repair. We used genetic manipulation to increase the number of ISC-like cells in the adult midgut and performed gene expression profiling to identify potential ISC regulators. A detailed analysis of one of these potential regulators, the zinc-finger protein Charlatan, was carried out. MARCM clonal analysis and RNAi in precursor cells showed that loss of Chn function caused severe ISC division defects, including loss of EdU incorporation, phosphorylated histone 3 staining and expression of the mitotic protein Cdc2. Loss of Charlatan also led to a ...


Transcription Factor Binding To Caenorhabditis Elegans First Introns Reveals Lack Of Redundancy With Gene Promoters, Juan I. Fuxman Bass, Alex M. Tamburino, Akihiro Mori, Nathan Beittel, Matthew T. Weirauch, John S. Reece-Hoyes, Albertha J. M. Walhout Jan 2014

Transcription Factor Binding To Caenorhabditis Elegans First Introns Reveals Lack Of Redundancy With Gene Promoters, Juan I. Fuxman Bass, Alex M. Tamburino, Akihiro Mori, Nathan Beittel, Matthew T. Weirauch, John S. Reece-Hoyes, Albertha J. M. Walhout

Program in Systems Biology Publications and Presentations

Gene expression is controlled through the binding of transcription factors (TFs) to regulatory genomic regions. First introns are longer than other introns in multiple eukaryotic species and are under selective constraint. Here we explore the importance of first introns in TF binding in the nematode Caenorhabditis elegans by combining computational predictions and experimentally derived TF-DNA interaction data. We found that first introns of C. elegans genes, particularly those for families enriched in long first introns, are more conserved in length, have more conserved predicted TF interactions and are bound by more TFs than other introns. We detected a significant positive ...


Chromatin Compaction And Genome Reorganization During Spermatogenesis In M. Musculus And Sporulation In S. Cerevisiae, Jessica Michelle Bryant Jan 2014

Chromatin Compaction And Genome Reorganization During Spermatogenesis In M. Musculus And Sporulation In S. Cerevisiae, Jessica Michelle Bryant

Publicly Accessible Penn Dissertations

Gametogenesis is a complex process that results in a highly differentiated gamete capable of transmitting genetic and epigenetic information to the next generation. In the cases of mammalian spermatogenesis and yeast sporulation, an extreme post-meiotic compaction of the genome is key to gamete function. While genome compaction in sperm is reliant upon a histone-to-protamine transition, yeast spores accomplish compaction with a full complement of histones. Although the mechanisms behind such striking chromatin dynamics are largely unknown, several histone variants and post-translational modifications, especially acetylation of histone H4, have been implicated in these processes. The following studies elucidate the roles of ...