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Full-Text Articles in Life Sciences
Condensin Ii Promotes The Formation Of Chromosome Territories By Inducing Axial Compaction Of Polyploid Interphase Chromosomes, Christopher R. R. Bauer, Tom A. Hartl, Giovanni Bosco
Condensin Ii Promotes The Formation Of Chromosome Territories By Inducing Axial Compaction Of Polyploid Interphase Chromosomes, Christopher R. R. Bauer, Tom A. Hartl, Giovanni Bosco
Dartmouth Scholarship
The eukaryotic nucleus is both spatially and functionally partitioned. This organization contributes to the maintenance, expression, and transmission of genetic information. Though our ability to probe the physical structure of the genome within the nucleus has improved substantially in recent years, relatively little is known about the factors that regulate its organization or the mechanisms through which specific organizational states are achieved. Here, we show that Drosophila melanogaster Condensin II induces axial compaction of interphase chromosomes, globally disrupts interchromosomal interactions, and promotes the dispersal of peri-centric heterochromatin. These Condensin II activities compartmentalize the nucleus into discrete chromosome territories and indicate …
Mecp2 Binds To Nucleosome Free (Linker Dna) Regions And To H3k9/H3k27 Methylated Nucleosomes In The Brain, Anita A. Thambirajah, Marlee K. Ng, Lindsay J. Frehlick, Andra Li, Jason J. Serpa, Evgeniy V. Petrotchenko, Begonia Silva-Moreno, Kristal K. Missiaen, Christoph H. Borchers, J. Adam Hall, Ryan Mackie, Frank Lutz, Brent E. Gowen, Michael Hendzel, Philippe T. Georgel, Juan Ausió
Mecp2 Binds To Nucleosome Free (Linker Dna) Regions And To H3k9/H3k27 Methylated Nucleosomes In The Brain, Anita A. Thambirajah, Marlee K. Ng, Lindsay J. Frehlick, Andra Li, Jason J. Serpa, Evgeniy V. Petrotchenko, Begonia Silva-Moreno, Kristal K. Missiaen, Christoph H. Borchers, J. Adam Hall, Ryan Mackie, Frank Lutz, Brent E. Gowen, Michael Hendzel, Philippe T. Georgel, Juan Ausió
Biological Sciences Faculty Research
Methyl-CpG-binding protein 2 (MeCP2) is a chromatin-binding protein that mediates transcriptional regulation, and is highly abundant in brain. The nature of its binding to reconstituted templates has been well characterized in vitro. However, its interactions with native chromatin are less understood. Here we show that MeCP2 displays a distinct distribution within fractionated chromatin from various tissues and cell types. Artificially induced global changes in DNA methylation by 3-aminobenzamide or 5-aza-2′-deoxycytidine, do not significantly affect the distribution or amount of MeCP2 in HeLa S3 or 3T3 cells. Most MeCP2 in brain is chromatin-bound and localized within highly nuclease-accessible regions. We …