|1.||Corpet, Armelle: 3 articles (02/2014 - 11/2007)|
|2.||Hamiche, Ali: 1 article (07/2015)|
|3.||Torchy, Morgan P: 1 article (07/2015)|
|4.||Klaholz, Bruno P: 1 article (07/2015)|
|5.||Erkina, Tamara Y: 1 article (03/2015)|
|6.||Erkine, Alexandre: 1 article (03/2015)|
|7.||Soto-Reyes, E: 1 article (08/2014)|
|8.||García-Cuellar, C: 1 article (08/2014)|
|9.||González-Ramírez, I: 1 article (08/2014)|
|10.||Herrera, L A: 1 article (08/2014)|
08/26/2008 - "Rtt109, in cooperation with various histone chaperones, promotes genomic stability and is required for resistance to DNA damaging agents. "
11/01/2007 - "Given the current interest in chromatin as a source of epigenetic marks, we address the potential contributions of histone chaperones to epigenetic memory and genome stability."
04/01/2012 - "Our analysis of DNA lesions, H3K56 acetylation, and expression of DNA repair genes argues for a role of NAP1 family histone chaperones in nucleosome disassembly/reassembly during HR. Our study highlights distinct functions for different families of histone chaperones in the maintenance of genome stability and establishes a crucial function for NAP1 family histone chaperones in somatic HR."
02/09/2011 - "Yeast Rtt109 promotes nucleosome assembly and genome stability by acetylating K9, K27, and K56 of histone H3 through interaction with either of two distinct histone chaperones, Vps75 or Asf1. "
|2.||Mouth Neoplasms (Oral Cancer)
01/01/2007 - "This review will also focus on the possible role of histone chaperones in cancer diagnosis and progression"
02/01/2014 - "We have now discovered that co-depletion of the histone chaperones ASF1a and ASF1b in human cells induced all hallmarks of ALT in both primary and cancer cells. "
02/01/2014 - "In addition, genetic alterations of the histone chaperones that specifically regulate chromatin incorporation of histone variants are rapidly being uncovered in numerous cancers. "
07/01/2015 - "NuRD is a 1 MDa multi-subunit protein complex which comprises many different subunits, among which histone deacetylases HDAC1/2, ATP-dependent remodeling enzymes CHD3/4, histone chaperones RbAp46/48, CpG-binding proteins MBD2/3, the GATAD2a (p66α) and/or GATAD2b (p66β) and specific DNA-binding proteins MTA1/2/3. Here, we review the currently known crystal and NMR structures of these subunits, the functional data and their relevance for biomedical research considering the implication of NuRD subunits in cancer and various other diseases. "
|3.||DNA (Deoxyribonucleic Acid)
|4.||Untranslated RNA (Noncoding RNA)
|5.||Adenosine Triphosphate (ATP)
|7.||Protein Subunits (Protein Subunit)
|8.||Histone Deacetylases (Histone Deacetylase)
|10.||DNA-Binding Proteins (DNA Binding Protein)