DNA content of a functioning chicken kinetochore

Susana Abreu Ribeiro; Paola Vagnarelli; William C Earnshaw

doi:10.1007/s10577-014-9410-3

DNA content of a functioning chicken kinetochore

Susana Abreu Ribeiro, Paola Vagnarelli, William C Earnshaw

School of Biological Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

In order to understand the three-dimensional structure of the functional kinetochore in vertebrates, we require a complete list and stoichiometry for the protein components of the kinetochore, which can be provided by genetic and proteomic experiments. We also need to know how the chromatin-containing CENP-A, which makes up the structural foundation for the kinetochore, is folded, and how much of that DNA is involved in assembling the kinetochore. In this MS, we demonstrate that functioning metaphase kinetochores in chicken DT40 cells contain roughly 50 kb of DNA, an amount that corresponds extremely closely to the length of chromosomal DNA associated with CENP-A in ChIP-seq experiments. Thus, during kinetochore assembly, CENP-A chromatin is compacted into the inner kinetochore plate without including significant amounts of flanking pericentromeric heterochromatin.

Original language	English
Journal	Chromosome Research
DOIs	https://doi.org/10.1007/s10577-014-9410-3
Publication status	Published - 15 Mar 2014

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The role of non-histone proteins in chromosome structure and function during mitosis
Earnshaw, B. (Principal Investigator)
UK-based charities
1/01/11 → 30/09/16
Project: Research
The role of non-histone proteins in chromosome structure and function during mitosis and apoptosis
Earnshaw, B. (Principal Investigator)
UK-based charities
1/10/05 → 30/09/15
Project: Research

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title = "DNA content of a functioning chicken kinetochore",

abstract = "In order to understand the three-dimensional structure of the functional kinetochore in vertebrates, we require a complete list and stoichiometry for the protein components of the kinetochore, which can be provided by genetic and proteomic experiments. We also need to know how the chromatin-containing CENP-A, which makes up the structural foundation for the kinetochore, is folded, and how much of that DNA is involved in assembling the kinetochore. In this MS, we demonstrate that functioning metaphase kinetochores in chicken DT40 cells contain roughly 50 kb of DNA, an amount that corresponds extremely closely to the length of chromosomal DNA associated with CENP-A in ChIP-seq experiments. Thus, during kinetochore assembly, CENP-A chromatin is compacted into the inner kinetochore plate without including significant amounts of flanking pericentromeric heterochromatin.",

author = "Ribeiro, \{Susana Abreu\} and Paola Vagnarelli and Earnshaw, \{William C\}",

year = "2014",

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T1 - DNA content of a functioning chicken kinetochore

AU - Ribeiro, Susana Abreu

AU - Vagnarelli, Paola

AU - Earnshaw, William C

PY - 2014/3/15

Y1 - 2014/3/15

N2 - In order to understand the three-dimensional structure of the functional kinetochore in vertebrates, we require a complete list and stoichiometry for the protein components of the kinetochore, which can be provided by genetic and proteomic experiments. We also need to know how the chromatin-containing CENP-A, which makes up the structural foundation for the kinetochore, is folded, and how much of that DNA is involved in assembling the kinetochore. In this MS, we demonstrate that functioning metaphase kinetochores in chicken DT40 cells contain roughly 50 kb of DNA, an amount that corresponds extremely closely to the length of chromosomal DNA associated with CENP-A in ChIP-seq experiments. Thus, during kinetochore assembly, CENP-A chromatin is compacted into the inner kinetochore plate without including significant amounts of flanking pericentromeric heterochromatin.

AB - In order to understand the three-dimensional structure of the functional kinetochore in vertebrates, we require a complete list and stoichiometry for the protein components of the kinetochore, which can be provided by genetic and proteomic experiments. We also need to know how the chromatin-containing CENP-A, which makes up the structural foundation for the kinetochore, is folded, and how much of that DNA is involved in assembling the kinetochore. In this MS, we demonstrate that functioning metaphase kinetochores in chicken DT40 cells contain roughly 50 kb of DNA, an amount that corresponds extremely closely to the length of chromosomal DNA associated with CENP-A in ChIP-seq experiments. Thus, during kinetochore assembly, CENP-A chromatin is compacted into the inner kinetochore plate without including significant amounts of flanking pericentromeric heterochromatin.

U2 - 10.1007/s10577-014-9410-3

DO - 10.1007/s10577-014-9410-3

M3 - Article

C2 - 24633498

SN - 0967-3849

JO - Chromosome Research

JF - Chromosome Research

ER -

DNA content of a functioning chicken kinetochore

Abstract

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The role of non-histone proteins in chromosome structure and function during mitosis

The role of non-histone proteins in chromosome structure and function during mitosis and apoptosis

Cite this