Literature DB >> 16299391

High mobility group proteins HMGD and HMGZ interact genetically with the Brahma chromatin remodeling complex in Drosophila.

Anan Ragab1, Elizabeth C Thompson, Andrew A Travers.   

Abstract

Many pleiotropic roles have been ascribed to small abundant HMG-Box (HMGB) proteins in higher eukaryotes but their precise function has remained enigmatic. To investigate their function genetically we have generated a defined deficiency uncovering the functionally redundant genes encoding HMGD and HMGZ, the Drosophila counterparts of HMGB1-3 in mammals. The resulting mutant is a strong hypomorphic allele of HmgD/Z. Surprisingly this allele is viable and exhibits only minor morphological defects even when homozygous. However, this allele interacts strongly with mutants of the Brahma chromatin remodeling complex, while no interaction was observed with mutant alleles of other remodeling complexes. We also observe genetic interactions between the HmgD/Z deficiency and some, but not all, known Brahma targets. These include the homeotic genes Sex combs reduced and Antennapedia, as well as the gene encoding the cell-signaling protein Rhomboid. In contrast to more general structural roles previously suggested for these proteins, we infer that a major function of the abundant HMGB proteins in Drosophila is to participate in Brahma-dependent chromatin remodeling at a specific subset of Brahma-dependent promoters.

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Year:  2005        PMID: 16299391      PMCID: PMC1456206          DOI: 10.1534/genetics.105.049957

Source DB:  PubMed          Journal:  Genetics        ISSN: 0016-6731            Impact factor:   4.562


  43 in total

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2.  Chromatin unfolding and activation by HMGN(*) chromosomal proteins.

Authors:  M Bustin
Journal:  Trends Biochem Sci       Date:  2001-07       Impact factor: 13.807

3.  Chromatin remodeling through directional DNA translocation from an internal nucleosomal site.

Authors:  Anjanabha Saha; Jacqueline Wittmeyer; Bradley R Cairns
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4.  Spt16-Pob3 and the HMG protein Nhp6 combine to form the nucleosome-binding factor SPN.

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Journal:  EMBO J       Date:  2001-07-02       Impact factor: 11.598

5.  DSP1, an HMG-like protein, is involved in the regulation of homeotic genes.

Authors:  M Decoville; E Giacomello; M Leng; D Locker
Journal:  Genetics       Date:  2001-01       Impact factor: 4.562

6.  Yeast Nhp6A/B and mammalian Hmgb1 facilitate the maintenance of genome stability.

Authors:  Sabrina Giavara; Effie Kosmidou; M Prakash Hande; Marco E Bianchi; Alan Morgan; Fabrizio d'Adda di Fagagna; Stephen P Jackson
Journal:  Curr Biol       Date:  2005-01-11       Impact factor: 10.834

7.  Hmgb3 deficiency deregulates proliferation and differentiation of common lymphoid and myeloid progenitors.

Authors:  Michael J Nemeth; Amanda P Cline; Stacie M Anderson; Lisa J Garrett-Beal; David M Bodine
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8.  GR and HMGB1 interact only within chromatin and influence each other's residence time.

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Journal:  Mol Cell       Date:  2005-04-01       Impact factor: 17.970

9.  Reduced fertility and spermatogenesis defects in mice lacking chromosomal protein Hmgb2.

Authors:  L Ronfani; M Ferraguti; L Croci; C E Ovitt; H R Schöler; G G Consalez; M E Bianchi
Journal:  Development       Date:  2001-04       Impact factor: 6.868

10.  The HMG-domain protein BAP111 is important for the function of the BRM chromatin-remodeling complex in vivo.

Authors:  O Papoulas; G Daubresse; J A Armstrong; J Jin; M P Scott; J W Tamkun
Journal:  Proc Natl Acad Sci U S A       Date:  2001-05-01       Impact factor: 11.205
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  9 in total

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Journal:  Genetics       Date:  2009-03-16       Impact factor: 4.562

2.  Drosophila D1 overexpression induces ectopic pairing of polytene chromosomes and is deleterious to development.

Authors:  Marissa B Smith; Karen S Weiler
Journal:  Chromosoma       Date:  2010-02-03       Impact factor: 4.316

3.  Identification of genes functionally involved in the detrimental effects of mutant histone H3.3-K27M in Drosophila melanogaster.

Authors:  Johannes Berlandi; Amel Chaouch; Nicolas De Jay; Isabel Tegeder; Katharina Thiel; Margret Shirinian; Claudia L Kleinman; Astrid Jeibmann; Paul Lasko; Nada Jabado; Martin Hasselblatt
Journal:  Neuro Oncol       Date:  2019-05-06       Impact factor: 12.300

4.  Gene expression profiling identifies the zinc-finger protein Charlatan as a regulator of intestinal stem cells in Drosophila.

Authors:  Alla Amcheslavsky; Yingchao Nie; Qi Li; Feng He; Leo Tsuda; Michele Markstein; Y Tony Ip
Journal:  Development       Date:  2014-07       Impact factor: 6.868

5.  Ethanol-regulated genes that contribute to ethanol sensitivity and rapid tolerance in Drosophila.

Authors:  Eric C Kong; Lorien Allouche; Paul A Chapot; Karen Vranizan; Monica S Moore; Ulrike Heberlein; Fred W Wolf
Journal:  Alcohol Clin Exp Res       Date:  2009-11-24       Impact factor: 3.455

6.  Recent origins of sperm genes in Drosophila.

Authors:  Steve Dorus; Zoë N Freeman; Elizabeth R Parker; Benjamin D Heath; Timothy L Karr
Journal:  Mol Biol Evol       Date:  2008-07-24       Impact factor: 16.240

7.  Ssrp1a controls organogenesis by promoting cell cycle progression and RNA synthesis.

Authors:  Katarzyna Koltowska; Holger Apitz; Despina Stamataki; Elizabeth M A Hirst; Heather Verkade; Iris Salecker; Elke A Ober
Journal:  Development       Date:  2013-03-20       Impact factor: 6.868

8.  Perturbation analysis of heterochromatin-mediated gene silencing and somatic inheritance.

Authors:  Jonathan I Schneiderman; Sara Goldstein; Kami Ahmad
Journal:  PLoS Genet       Date:  2010-09-09       Impact factor: 5.917

9.  Inorganic Arsenic-induced cellular transformation is coupled with genome wide changes in chromatin structure, transcriptome and splicing patterns.

Authors:  Caitlyn Riedmann; Ye Ma; Manana Melikishvili; Steven Grason Godfrey; Zhou Zhang; Kuey Chu Chen; Eric C Rouchka; Yvonne N Fondufe-Mittendorf
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  9 in total

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