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Literature DB >> 26459501

Linker histones: History and current perspectives.

Abstract

Although the overall structure of the fifth histone (linker histone, H1) is understood, its location on the nucleosome is only partially defined. Whilst it is clear that H1 helps condense the chromatin fibre, precisely how this is achieved remains to be determined. H1 is not a general gene repressor in that although it must be displaced from transcription start sites for activity to occur, there is only partial loss along the body of genes. How the deposition and removal of H1 occurs in particular need of further study. Linker histones are highly abundant nuclear proteins about which we know too little.

Keywords: Chromatin; Linker histone; Nucleosome

Mesh：

Substances：
Chromatin
Histones

Year: 2015 PMID： 26459501 DOI： 10.1016/j.bbagrm.2015.10.008

Source DB: PubMed Journal: Biochim Biophys Acta ISSN： 0006-3002

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Cited

15 in total

1. Conformational selection and dynamic adaptation upon linker histone binding to the nucleosome.

Authors: Mehmet Ali Öztürk; Georgi V Pachov; Rebecca C Wade; Vlad Cojocaru
Journal: Nucleic Acids Res Date: 2016-06-07 Impact factor: 16.971

2. Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging.

Authors: Elisabetta Flex; Simone Martinelli; Anke Van Dijck; Andrea Ciolfi; Serena Cecchetti; Elisa Coluzzi; Luca Pannone; Cristina Andreoli; Francesca Clementina Radio; Simone Pizzi; Giovanna Carpentieri; Alessandro Bruselles; Giuseppina Catanzaro; Lucia Pedace; Evelina Miele; Elena Carcarino; Xiaoyan Ge; Chieko Chijiwa; M E Suzanne Lewis; Marije Meuwissen; Sandra Kenis; Nathalie Van der Aa; Austin Larson; Kathleen Brown; Melissa P Wasserstein; Brian G Skotko; Amber Begtrup; Richard Person; Maria Karayiorgou; J Louw Roos; Koen L Van Gassen; Marije Koopmans; Emilia K Bijlsma; Gijs W E Santen; Daniela Q C M Barge-Schaapveld; Claudia A L Ruivenkamp; Mariette J V Hoffer; Seema R Lalani; Haley Streff; William J Craigen; Brett H Graham; Annette P M van den Elzen; Daan J Kamphuis; Katrin Õunap; Karit Reinson; Sander Pajusalu; Monica H Wojcik; Clara Viberti; Cornelia Di Gaetano; Enrico Bertini; Simona Petrucci; Alessandro De Luca; Rossella Rota; Elisabetta Ferretti; Giuseppe Matullo; Bruno Dallapiccola; Antonella Sgura; Magdalena Walkiewicz; R Frank Kooy; Marco Tartaglia
Journal: Am J Hum Genet Date: 2019-08-22 Impact factor: 11.025

Review 3. Significance of avian linker histone (H1) polymorphic variation.

Authors: Andrzej Kowalski
Journal: J Biosci Date: 2018-09 Impact factor: 1.826

4. Epithelial cells-enriched lncRNA SNHG8 regulates chromatin condensation by binding to Histone H1s.

Authors: Ping He; Cheng Zhang; Yan Ji; Meng-Kai Ge; Yun Yu; Na Zhang; Shuo Yang; Jian-Xiu Yu; Shao-Ming Shen; Guo-Qiang Chen
Journal: Cell Death Differ Date: 2022-02-09 Impact factor: 12.067

Review 5. PTEN in Chromatin Remodeling.

Authors: Jingyi Yang; Yuxin Yin
Journal: Cold Spring Harb Perspect Med Date: 2020-02-03 Impact factor: 6.915

6. Extracellular vesicles shed by melanoma cells contain a modified form of H1.0 linker histone and H1.0 mRNA-binding proteins.

Authors: Gabriella Schiera; Carlo Maria Di Liegro; Veronica Puleo; Oriana Colletta; Anna Fricano; Patrizia Cancemi; Gianluca Di Cara; Italia Di Liegro
Journal: Int J Oncol Date: 2016-09-15 Impact factor: 5.650

Review 7. Linker Histone in Diseases.

Authors: Xin Ye; ChuanLin Feng; Tian Gao; Guanqun Mu; Weiguo Zhu; Yang Yang
Journal: Int J Biol Sci Date: 2017-07-18 Impact factor: 6.580