Controlling X-inactivation in mammals: What does the centre hold?

Claire Rougeulle; Philip Avner

doi:10.1016/j.semcdb.2003.09.014

Controlling X-inactivation in mammals: What does the centre hold?

Claire Rougeulle, Philip Avner

Institut Pasteur, Paris

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

Abstract

Controlling gene expression is one of the most fundamental task of living organisms, from prokaryotes to higher eukaryotes, in order to develop, grow, and reproduce in an ever changing environment. In many cases, the expression status of a given gene is controlled independently of that of its neighbours through localised cis DNA elements responsible for the recruitment of specific factors and enzymatic activities. However, in a growing number of cases, genomic regions including several genes have been shown to be regulated in a coordinated manner. X-chromosome inactivation, the dosage compensation mechanism encountered in mammals, is one of the most striking example of such coordinated gene regulation. This process, which occurs at the chromosome-wide level, affecting many hundreds of genes, is under the control of a unique, cis acting region, termed the X-inactivation centre, whose complexity is just beginning to be unravelled.

Original language	English
Pages (from-to)	331-340
Number of pages	10
Journal	Seminars in Cell and Developmental Biology
Volume	14
Issue number	6
DOIs	https://doi.org/10.1016/j.semcdb.2003.09.014
Publication status	Published - 1 Jan 2003
Externally published	Yes

Keywords

Choice
Counting
Initiation
X-chromosome inactivation
X-inactivation centre

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10.1016/j.semcdb.2003.09.014

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title = "Controlling X-inactivation in mammals: What does the centre hold?",

abstract = "Controlling gene expression is one of the most fundamental task of living organisms, from prokaryotes to higher eukaryotes, in order to develop, grow, and reproduce in an ever changing environment. In many cases, the expression status of a given gene is controlled independently of that of its neighbours through localised cis DNA elements responsible for the recruitment of specific factors and enzymatic activities. However, in a growing number of cases, genomic regions including several genes have been shown to be regulated in a coordinated manner. X-chromosome inactivation, the dosage compensation mechanism encountered in mammals, is one of the most striking example of such coordinated gene regulation. This process, which occurs at the chromosome-wide level, affecting many hundreds of genes, is under the control of a unique, cis acting region, termed the X-inactivation centre, whose complexity is just beginning to be unravelled.",

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AB - Controlling gene expression is one of the most fundamental task of living organisms, from prokaryotes to higher eukaryotes, in order to develop, grow, and reproduce in an ever changing environment. In many cases, the expression status of a given gene is controlled independently of that of its neighbours through localised cis DNA elements responsible for the recruitment of specific factors and enzymatic activities. However, in a growing number of cases, genomic regions including several genes have been shown to be regulated in a coordinated manner. X-chromosome inactivation, the dosage compensation mechanism encountered in mammals, is one of the most striking example of such coordinated gene regulation. This process, which occurs at the chromosome-wide level, affecting many hundreds of genes, is under the control of a unique, cis acting region, termed the X-inactivation centre, whose complexity is just beginning to be unravelled.

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KW - Counting

KW - Initiation

KW - X-chromosome inactivation

KW - X-inactivation centre

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Controlling X-inactivation in mammals: What does the centre hold?

Abstract

Keywords

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