Crystal structure of the human centromeric nucleosome containing CENP-A

Tachiwana, Hiroaki; Kagawa, Wataru; Shiga, T.; Osakabe, Akihisa; Miya, Yuta; Saito, Kenkichi; Hayashi‐Takanaka, Yoko; Oda, Takashi; Sato, Mamoru; Park, Sam Yong; Kimurâ, Hiroshi; Kurumizaka, Hitoshi

doi:10.1038/nature10258

Cited by 349 publications

(568 citation statements)

References 38 publications

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“…The notion that CENP-A can function as a hemisome will not be corroborated until a hemisome is successfully isolated and characterized biochemically. In contrast to a CENP-A hemisome, the crystal structure of an octameric CENP-A nucleosome has been resolved, revealing only subtle differences to canonical octameric H3 nucleosomes (Tachiwana et al 2011). Octameric CENP-A nucleosomes wrap slightly less DNA than H3 nucleosomes ( 120 bp vs. 147 bp), resulting in different DNA entry/exit angles from the nucleosome, and several exposed residues exist in CENP-A's extended loop 1 region that are important for CENP-A nucleosome stability (Tachiwana et al 2011).…”

Section: The Structure Of Cenp-a-containing Nucleosomesmentioning

confidence: 99%

“…In contrast to a CENP-A hemisome, the crystal structure of an octameric CENP-A nucleosome has been resolved, revealing only subtle differences to canonical octameric H3 nucleosomes (Tachiwana et al 2011). Octameric CENP-A nucleosomes wrap slightly less DNA than H3 nucleosomes ( 120 bp vs. 147 bp), resulting in different DNA entry/exit angles from the nucleosome, and several exposed residues exist in CENP-A's extended loop 1 region that are important for CENP-A nucleosome stability (Tachiwana et al 2011). In support of the octameric CENP-A nucleosome model, ChIP-Seq data revealed that CENP-A mononucleosomes wrap more DNA in cells than hemisomes could wrap (Hasson et al 2013), immunoprecipitation of Drosophila CENP-C CID mononucleosomes revealed the presence of CENP-A CID dimers (Zhang et al 2012), and CAL1-assembled CENP-A CID nucleosomes in Drosophila are octameric .…”

Section: The Structure Of Cenp-a-containing Nucleosomesmentioning

confidence: 99%

“…The amino-terminal 40 amino acids of CENP-A, the most divergent domain from histone H3, undergoes specific posttranslational modifications that are thought to influence CENP-A nucleosome structure and function, although their significance remains largely unclear (Zeitlin et al 2001;Kunitoku et al 2003;Bailey et al 2013;Boeckmann et al 2013). The most amino-terminal a helix in CENP-A (residues 48 -56) is three residues shorter than that observed in histone H3 (residues 45 -56), yet this small difference results in a loss of a DNA interaction that causes different entry/exit angles of DNA from the CENP-A nucleosome, protects less DNA in classic nucleosome micrococcal nuclease digestion assays, and most likely has a key influence of overall centromeric chromatin structure (Conde e Silva et al 2007;Panchenko et al 2011;Tachiwana et al 2011). In the histone fold domain of CENP-A, a two-residue insertion (R80 and G81) in a loop domain is exposed in the CENP-A nucleosome and influences CENP-A nucleosome stability (Sekulic et al 2010;Tachiwana et al 2011).…”

Section: Distinguishing Features Of Centromeric Chromatinmentioning

confidence: 99%

“…The most amino-terminal a helix in CENP-A (residues 48 -56) is three residues shorter than that observed in histone H3 (residues 45 -56), yet this small difference results in a loss of a DNA interaction that causes different entry/exit angles of DNA from the CENP-A nucleosome, protects less DNA in classic nucleosome micrococcal nuclease digestion assays, and most likely has a key influence of overall centromeric chromatin structure (Conde e Silva et al 2007;Panchenko et al 2011;Tachiwana et al 2011). In the histone fold domain of CENP-A, a two-residue insertion (R80 and G81) in a loop domain is exposed in the CENP-A nucleosome and influences CENP-A nucleosome stability (Sekulic et al 2010;Tachiwana et al 2011). Importantly, a central region (residues 75 -114 in humans) constitutes the CENP-A targeting domain (CATD) (Black et al 2004) that is essential for numerous aspects of CENP-A function and structure, including binding of the CENP-A chaperone Holliday junction recognition protein (HJURP) and the centromere protein CENP-N (discussed below).…”

Section: Distinguishing Features Of Centromeric Chromatinmentioning

confidence: 99%

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The Centromere: Epigenetic Control of Chromosome Segregation during Mitosis

Westhorpe

Straight

2014

Cold Spring Harb Perspect Biol

140

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A fundamental challenge for the survival of all organisms is maintaining the integrity of the genome in all cells. Cells must therefore segregate their replicated genome equally during each cell division. Eukaryotic organisms package their genome into a number of physically distinct chromosomes, which replicate during S phase and condense during prophase of mitosis to form paired sister chromatids. During mitosis, cells form a physical connection between each sister chromatid and microtubules of the mitotic spindle, which segregate one copy of each chromatid to each new daughter cell. The centromere is the DNA locus on each chromosome that creates the site of this connection. In this review, we present a brief history of centromere research and discuss our current knowledge of centromere establishment, maintenance, composition, structure, and function in mitosis.

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Section: The Structure Of Cenp-a-containing Nucleosomesmentioning

confidence: 99%

Section: The Structure Of Cenp-a-containing Nucleosomesmentioning

confidence: 99%

Section: Distinguishing Features Of Centromeric Chromatinmentioning

confidence: 99%

Section: Distinguishing Features Of Centromeric Chromatinmentioning

confidence: 99%

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The Centromere: Epigenetic Control of Chromosome Segregation during Mitosis

Westhorpe

Straight

2014

Cold Spring Harb Perspect Biol

140

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“…A large majority of nucleosome crystal structures are based on a palindromic 73 bp region from the human alpha satellite repeat (Harp et al 1996). However, the functionally relevant nucleosome positioning is unclear and complicated by active debate over the repeating chromatin unit size, the wrapping topology, and whether relevant centromeric chromatin is wrapped as either H3 and CENP-A containing nucleosomes or both (Tachiwana et al 2011), or possibly even other histone fold structures of centromeric proteins (Nishino et al 2012).…”

Section: Alpha Satellite Dnamentioning

confidence: 99%

Principles and practice of nucleosome positioningin vitro

Flaus

2011

Frontiers in Life Science

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Centromeres

Gohard

Zhiteneva

Earnshaw

2014

Encyclopedia of Life Sciences

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Cell division requires the faithful partitioning of the replicated genome into two daughter cells. Failure to achieve this can result in cell death or drive neoplastic transformation and, in meiosis, can lead to infertility and aneuploidy. Centromeres are sites at which eukaryotic chromosomes interact with the mitotic spindle and sister chromatids remain linked until properly aligned. Linkage to the spindle occurs via the kinetochore – a highly elaborate proteinaceous structure assembled on the surface of the centromere. Paradoxically given their essential functions, there is a surprising diversity in centromeric architecture, deoxyribonucleic acid (DNA) sequence and protein composition across eukaryotes. Centromere assembly and maintenance are epigenetically determined, and their key unifying feature is the presence of a centromere‐specific histone H3 variant: CENP‐A. In this article, the authors have focused on the specification, composition and function of the mammalian centromere in mitosis. Key Concepts: Centromeres are chromosomal loci necessary for chromosome segregation. The most common form of centromere is the regional centromere that is present once, and only once, per chromosome. Centromeres are epigenetically regulated; the centromere‐specific histone H3 variant CENP‐A is the determinant of centromere identity. Centromeres assemble kinetochores consisting of multiple copies of >100 proteins that regulate chromosome interactions with the mitotic spindle. Centromeres are flanked by heterochromatin, which is necessary for sister chromatid cohesion and error correction. Plasticity in centromere positioning and activity can compensate for the loss or gain of a centromere on a single chromosome fragment.

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Crystal structure of the human centromeric nucleosome containing CENP-A

Cited by 349 publications

References 38 publications

The Centromere: Epigenetic Control of Chromosome Segregation during Mitosis

The Centromere: Epigenetic Control of Chromosome Segregation during Mitosis

Principles and practice of nucleosome positioningin vitro

Centromeres

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