Literature DB >> 22740047

Temporal control of epigenetic centromere specification.

Luis P Valente1, Mariana C C Silva, Lars E T Jansen.   

Abstract

All living organisms require accurate mechanisms to faithfully inherit their genetic material during cell division. The centromere is a unique locus on each chromosome that supports a multiprotein structure called the kinetochore. During mitosis, the kinetochore is responsible for connecting chromosomes to spindle microtubules, allowing faithful segregation of the duplicated genome. In most organisms, centromere position and function is not defined by the local DNA sequence context but rather by an epigenetic chromatin-based mechanism. Centromere protein A (CENP-A) is central to this process, as chromatin assembled from this histone H3 variant is essential for assembly of the centromere complex, as well as for its epigenetic maintenance. As a major determinant of centromere function, CENP-A assembly requires tight control, both in its specificity for the centromere and in timing of assembly. In the last few years, there have been several new insights into the molecular mechanism that allow this process to occur. We will review these here and discuss the general implications of the mechanism of cell cycle coupling of centromere inheritance.

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Year:  2012        PMID: 22740047     DOI: 10.1007/s10577-012-9291-2

Source DB:  PubMed          Journal:  Chromosome Res        ISSN: 0967-3849            Impact factor:   5.239


  85 in total

1.  Early disruption of centromeric chromatin organization in centromere protein A (Cenpa) null mice.

Authors:  E V Howman; K J Fowler; A J Newson; S Redward; A C MacDonald; P Kalitsis; K H Choo
Journal:  Proc Natl Acad Sci U S A       Date:  2000-02-01       Impact factor: 11.205

2.  Mis16 and Mis18 are required for CENP-A loading and histone deacetylation at centromeres.

Authors:  Takeshi Hayashi; Yohta Fujita; Osamu Iwasaki; Yoh Adachi; Kohta Takahashi; Mitsuhiro Yanagida
Journal:  Cell       Date:  2004-09-17       Impact factor: 41.582

3.  CENP-A is required for accurate chromosome segregation and sustained kinetochore association of BubR1.

Authors:  Vinciane Régnier; Paola Vagnarelli; Tatsuo Fukagawa; Tatiana Zerjal; Elizabeth Burns; Didier Trouche; William Earnshaw; William Brown
Journal:  Mol Cell Biol       Date:  2005-05       Impact factor: 4.272

4.  Quantitative proteomics reveals the basis for the biochemical specificity of the cell-cycle machinery.

Authors:  Felicia Walton Pagliuca; Mark O Collins; Agata Lichawska; Philip Zegerman; Jyoti S Choudhary; Jonathon Pines
Journal:  Mol Cell       Date:  2011-08-05       Impact factor: 17.970

Review 5.  At the right place at the right time: novel CENP-A binding proteins shed light on centromere assembly.

Authors:  Mariana C C Silva; Lars E T Jansen
Journal:  Chromosoma       Date:  2009-07-10       Impact factor: 4.316

6.  The cenpB gene is not essential in mice.

Authors:  M Kapoor; R Montes de Oca Luna; G Liu; G Lozano; C Cummings; M Mancini; I Ouspenski; B R Brinkley; G S May
Journal:  Chromosoma       Date:  1998-12       Impact factor: 4.316

7.  Transmission of a fully functional human neocentromere through three generations.

Authors:  C Tyler-Smith; G Gimelli; S Giglio; G Floridia; A Pandya; G Terzoli; P E Warburton; W C Earnshaw; O Zuffardi
Journal:  Am J Hum Genet       Date:  1999-05       Impact factor: 11.025

8.  A small GTPase molecular switch regulates epigenetic centromere maintenance by stabilizing newly incorporated CENP-A.

Authors:  Anaïck Lagana; Jonas F Dorn; Valérie De Rop; Anne-Marie Ladouceur; Amy S Maddox; Paul S Maddox
Journal:  Nat Cell Biol       Date:  2010-11-21       Impact factor: 28.824

9.  Global, in vivo, and site-specific phosphorylation dynamics in signaling networks.

Authors:  Jesper V Olsen; Blagoy Blagoev; Florian Gnad; Boris Macek; Chanchal Kumar; Peter Mortensen; Matthias Mann
Journal:  Cell       Date:  2006-11-03       Impact factor: 41.582

10.  Active establishment of centromeric CENP-A chromatin by RSF complex.

Authors:  Marinela Perpelescu; Naohito Nozaki; Chikashi Obuse; Hua Yang; Kinya Yoda
Journal:  J Cell Biol       Date:  2009-04-27       Impact factor: 10.539
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  7 in total

1.  Kinetochore function and chromosome segregation rely on critical residues in histones H3 and H4 in budding yeast.

Authors:  Tessie M Ng; Tineke L Lenstra; Nicole Duggan; Shuangying Jiang; Steven Ceto; Frank C P Holstege; Junbiao Dai; Jef D Boeke; Sue Biggins
Journal:  Genetics       Date:  2013-09-13       Impact factor: 4.562

Review 2.  Functions of the centromere and kinetochore in chromosome segregation.

Authors:  Frederick G Westhorpe; Aaron F Straight
Journal:  Curr Opin Cell Biol       Date:  2013-03-13       Impact factor: 8.382

3.  The past, present, and future of human centromere genomics.

Authors:  Megan E Aldrup-Macdonald; Beth A Sullivan
Journal:  Genes (Basel)       Date:  2014-01-24       Impact factor: 4.096

4.  Extraordinary centromeres: differences in the meiotic chromosomes of two rock lizards species Darevskia portschinskii and Darevskia raddei.

Authors:  Victor Spangenberg; Marine Arakelyan; Eduard Galoyan; Mark Pankin; Ruzanna Petrosyan; Ilona Stepanyan; Tatiana Grishaeva; Felix Danielyan; Oxana Kolomiets
Journal:  PeerJ       Date:  2019-01-30       Impact factor: 2.984

5.  CENP-A is essential for cardiac progenitor cell proliferation.

Authors:  Michael McGregor; Nirmala Hariharan; Anya Y Joyo; Robert L Margolis; Mark A Sussman
Journal:  Cell Cycle       Date:  2013-12-20       Impact factor: 4.534

6.  Nucleolar activity and CENP-C regulate CENP-A and CAL1 availability for centromere assembly in meiosis.

Authors:  Lucretia Kwenda; Caitriona M Collins; Anna A Dattoli; Elaine M Dunleavy
Journal:  Development       Date:  2016-04-15       Impact factor: 6.868

Review 7.  Chromatin assembly: Journey to the CENter of the chromosome.

Authors:  Chin-Chi Chen; Barbara G Mellone
Journal:  J Cell Biol       Date:  2016-07-04       Impact factor: 10.539
  7 in total

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