Sex chromosome inactivation in the male

doi:10.4161/epi.4.7.9923

. 2009 Oct 1;4(7):452-6.

doi: 10.4161/epi.4.7.9923. Epub 2009 Oct 25.

Sex chromosome inactivation in the male

Wei Yan¹, John R McCarrey

Affiliations

PMID: 19838052
PMCID: PMC3052906
DOI: 10.4161/epi.4.7.9923

Free PMC article

Sex chromosome inactivation in the male

Wei Yan et al. Epigenetics. 2009.

Free PMC article

. 2009 Oct 1;4(7):452-6.

doi: 10.4161/epi.4.7.9923. Epub 2009 Oct 25.

Authors

Wei Yan¹, John R McCarrey

Affiliation

¹ Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, NV, USA. wyan@medicine.nevada.edu

PMID: 19838052
PMCID: PMC3052906
DOI: 10.4161/epi.4.7.9923

Abstract

Mammalian females have two X chromosomes, while males have only one X plus a Y chromosome. In order to balance X-linked gene dosage between the sexes, one X chromosome undergoes inactivation during development of female embryos. This process has been termed X-chromosome inactivation (XCI). Inactivation of the single X chromosome also occurs in the male, but is transient and is confined to the late stages of first meiotic prophase during spermatogenesis. This phenomenon has been termed meiotic sex chromosome inactivation (MSCI). A substantial portion ( approximately 15-25%) of X-linked mRNA-encoding genes escapes XCI in female somatic cells. While no mRNA genes are known to escape MSCI in males, approximately 80% of X-linked miRNA genes have been shown to escape this process. Recent results have led to the proposal that the RNA interference mechanism may be involved in regulating XCI in female cells. We suggest that some MSCI-escaping miRNAs may play a similar role in regulating MSCI in male germ cells.

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Figures

**Figure 1**
Hypothetical roles of X-linked MSCI-escaping miRNAs.

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References

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1. Brown CJ, Hendrich BD, Rupert JL, Lafreniere RG, Xing Y, Lawrence J, Willard HF. The human XIST gene: analysis of a 17 kb inactive X-specific RNA that contains conserved repeats and is highly localized within the nucleus. Cell. 1992;71:527–42. - PubMed

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[1] Tilford CA, Kuroda-Kawaguchi T, Skaletsky H, Rozen S, Brown LG, Rosenberg M, McPherson JD, Wylie K, Sekhon M, Kucaba TA, Waterston RH, Page DC. A physical map of the human Y chromosome. Nature. 2001;409:943–5. - PubMed

[2] Tilford CA, Kuroda-Kawaguchi T, Skaletsky H, Rozen S, Brown LG, Rosenberg M, McPherson JD, Wylie K, Sekhon M, Kucaba TA, Waterston RH, Page DC. A physical map of the human Y chromosome. Nature. 2001;409:943–5. - PubMed

[3] Lyon MF. Gene action in the X-chromosome of the mouse (Mus musculus L.) Nature. 1961;190:372–3. - PubMed

[4] Lyon MF. Gene action in the X-chromosome of the mouse (Mus musculus L.) Nature. 1961;190:372–3. - PubMed

[5] Gardner RL, Lyon MF. X chromosome inactivation studied by injection of a single cell into the mouse blastocyst. Nature. 1971;231:385–6. - PubMed

[6] Gardner RL, Lyon MF. X chromosome inactivation studied by injection of a single cell into the mouse blastocyst. Nature. 1971;231:385–6. - PubMed

[7] Lyon MF. Evolution of X-chromosome inactivation in mammals. Nature. 1974;250:651–3. - PubMed

[8] Lyon MF. Evolution of X-chromosome inactivation in mammals. Nature. 1974;250:651–3. - PubMed

[9] Brown CJ, Hendrich BD, Rupert JL, Lafreniere RG, Xing Y, Lawrence J, Willard HF. The human XIST gene: analysis of a 17 kb inactive X-specific RNA that contains conserved repeats and is highly localized within the nucleus. Cell. 1992;71:527–42. - PubMed

[10] Brown CJ, Hendrich BD, Rupert JL, Lafreniere RG, Xing Y, Lawrence J, Willard HF. The human XIST gene: analysis of a 17 kb inactive X-specific RNA that contains conserved repeats and is highly localized within the nucleus. Cell. 1992;71:527–42. - PubMed

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Sex chromosome inactivation in the male

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