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Literature DB >> 24342629

Neocentromeres: a place for everything and everything in its place.

Abstract

Centromeres are essential for chromosome inheritance and genome stability. Centromeric proteins, including the centromeric histone centromere protein A (CENP-A), define the site of centromeric chromatin and kinetochore assembly. In many organisms, centromeres are located in or near regions of repetitive DNA. However, some atypical centromeres spontaneously form on unique sequences. These neocentromeres, or new centromeres, were first identified in humans, but have since been described in other organisms. Neocentromeres are functionally and structurally similar to endogenous centromeres, but lack the added complication of underlying repetitive sequences. Here, we discuss recent studies in chicken and fungal systems where genomic engineering can promote neocentromere formation. These studies reveal key genomic and epigenetic factors that support de novo centromere formation in eukaryotes.

Entities: Chemical Disease Gene Species

Keywords: CENP-A; gene conversion; heterochromatin; histone; replication; transcription

Mesh：

Substances：
Chromatin

Year: 2013 PMID： 24342629 PMCID： PMC3913482 DOI： 10.1016/j.tig.2013.11.003

Source DB: PubMed Journal: Trends Genet ISSN： 0168-9525 Impact factor: 11.639

80 in total

Review 1. Dicentric chromosomes: unique models to study centromere function and inactivation.

Authors: Kaitlin M Stimpson; Justyne E Matheny; Beth A Sullivan
Journal: Chromosome Res Date: 2012-07 Impact factor: 5.239

2. Replication timing of DNA sequences associated with human centromeres and telomeres.

Authors: K G Ten Hagen; D M Gilbert; H F Willard; S N Cohen
Journal: Mol Cell Biol Date: 1990-12 Impact factor: 4.272

3. The activation of a neocentromere in Drosophila requires proximity to an endogenous centromere.

Authors: K A Maggert; G H Karpen
Journal: Genetics Date: 2001-08 Impact factor: 4.562

4. Variable and hierarchical size distribution of L1-retroelement-enriched CENP-A clusters within a functional human neocentromere.

Authors: Anderly C Chueh; Lee H Wong; Nicholas Wong; K H Andy Choo
Journal: Hum Mol Genet Date: 2004-11-10 Impact factor: 6.150

5. A two-step mechanism for epigenetic specification of centromere identity and function.

Authors: Daniele Fachinetti; H Diego Folco; Yael Nechemia-Arbely; Luis P Valente; Kristen Nguyen; Alex J Wong; Quan Zhu; Andrew J Holland; Arshad Desai; Lars E T Jansen; Don W Cleveland
Journal: Nat Cell Biol Date: 2013-07-21 Impact factor: 28.824

Review 6. "Holo"er than thou: chromosome segregation and kinetochore function in C. elegans.

Authors: Paul S Maddox; Karen Oegema; Arshad Desai; Iain M Cheeseman
Journal: Chromosome Res Date: 2004 Impact factor: 5.239

7. Centromere architecture breakdown induced by the viral E3 ubiquitin ligase ICP0 protein of herpes simplex virus type 1.

Authors: Sylvain Gross; Frédéric Catez; Hiroshi Masumoto; Patrick Lomonte
Journal: PLoS One Date: 2012-09-20 Impact factor: 3.240

8. Factors that promote H3 chromatin integrity during transcription prevent promiscuous deposition of CENP-A(Cnp1) in fission yeast.

Authors: Eun Shik Choi; Annelie Strålfors; Sandra Catania; Araceli G Castillo; J Peter Svensson; Alison L Pidoux; Karl Ekwall; Robin C Allshire
Journal: PLoS Genet Date: 2012-09-20 Impact factor: 5.917

9. Proteolysis restricts localization of CID, the centromere-specific histone H3 variant of Drosophila, to centromeres.

Authors: Olga Moreno-Moreno; Mònica Torras-Llort; Fernando Azorín
Journal: Nucleic Acids Res Date: 2006-11-07 Impact factor: 16.971

10. Functional centromeres determine the activation time of pericentric origins of DNA replication in Saccharomyces cerevisiae.

Authors: Thomas J Pohl; Bonita J Brewer; M K Raghuraman
Journal: PLoS Genet Date: 2012-05-10 Impact factor: 5.917

48 in total

Review 1. The kinetochore interaction network (KIN) of ascomycetes.

Authors: Michael Freitag
Journal: Mycologia Date: 2016-02-23 Impact factor: 2.696

2. Interrogating cell division errors using random and chromosome-specific missegregation approaches.

Authors: Peter Ly; Don W Cleveland
Journal: Cell Cycle Date: 2017-06-26 Impact factor: 4.534

Review 3. Chromatin dynamics during the cell cycle at centromeres.

Authors: Sebastian Müller; Geneviève Almouzni
Journal: Nat Rev Genet Date: 2017-01-31 Impact factor: 53.242

4. Cell Cycle-Regulated Transcription of CENP-A by the MBF Complex Ensures Optimal Level of CENP-A for Centromere Formation.

Authors: David Aristizabal-Corrales; Jinpu Yang; Fei Li
Journal: Genetics Date: 2019-01-11 Impact factor: 4.562