Mouse model systems to study sex chromosome genes and behavior: Relevance to humans

Kimberly H. Cox; Paul J. Bonthuis; Emilie F. Rissman

doi:10.1016/j.yfrne.2013.12.004

Mouse model systems to study sex chromosome genes and behavior: Relevance to humans

Kimberly H. Cox, Paul J. Bonthuis, Emilie F. Rissman

Research output: Contribution to journal › Review article › peer-review

Abstract

Sex chromosome genes directly influence sex differences in behavior. The discovery of the Sry gene on the Y chromosome (Gubbay et al., 1990; Koopman et al., 1990) substantiated the sex chromosome mechanistic link to sex differences. Moreover, the pronounced connection between X chromosome gene mutations and mental illness produces a strong sex bias in these diseases. Yet, the dominant explanation for sex differences continues to be the gonadal hormones. Here we review progress made on behavioral differences in mouse models that uncouple sex chromosome complement from gonadal sex. We conclude that many social and cognitive behaviors are modified by sex chromosome complement, and discuss the implications for human research. Future directions need to include identification of the genes involved and interactions with these genes and gonadal hormones.

Original language	English (US)
Pages (from-to)	405-419
Number of pages	15
Journal	Frontiers in Neuroendocrinology
Volume	35
Issue number	4
DOIs	https://doi.org/10.1016/j.yfrne.2013.12.004
State	Published - Oct 1 2014
Externally published	Yes

Keywords

Behavior
Four core genotypes
Klinefelter syndrome
Sex differences
Sexual differentiation
Turner syndrome

ASJC Scopus subject areas

Endocrine and Autonomic Systems

Online availability

10.1016/j.yfrne.2013.12.004

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title = "Mouse model systems to study sex chromosome genes and behavior: Relevance to humans",

abstract = "Sex chromosome genes directly influence sex differences in behavior. The discovery of the Sry gene on the Y chromosome (Gubbay et al., 1990; Koopman et al., 1990) substantiated the sex chromosome mechanistic link to sex differences. Moreover, the pronounced connection between X chromosome gene mutations and mental illness produces a strong sex bias in these diseases. Yet, the dominant explanation for sex differences continues to be the gonadal hormones. Here we review progress made on behavioral differences in mouse models that uncouple sex chromosome complement from gonadal sex. We conclude that many social and cognitive behaviors are modified by sex chromosome complement, and discuss the implications for human research. Future directions need to include identification of the genes involved and interactions with these genes and gonadal hormones.",

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author = "Cox, {Kimberly H.} and Bonthuis, {Paul J.} and Rissman, {Emilie F.}",

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AU - Cox, Kimberly H.

AU - Bonthuis, Paul J.

AU - Rissman, Emilie F.

PY - 2014/10/1

Y1 - 2014/10/1

N2 - Sex chromosome genes directly influence sex differences in behavior. The discovery of the Sry gene on the Y chromosome (Gubbay et al., 1990; Koopman et al., 1990) substantiated the sex chromosome mechanistic link to sex differences. Moreover, the pronounced connection between X chromosome gene mutations and mental illness produces a strong sex bias in these diseases. Yet, the dominant explanation for sex differences continues to be the gonadal hormones. Here we review progress made on behavioral differences in mouse models that uncouple sex chromosome complement from gonadal sex. We conclude that many social and cognitive behaviors are modified by sex chromosome complement, and discuss the implications for human research. Future directions need to include identification of the genes involved and interactions with these genes and gonadal hormones.

AB - Sex chromosome genes directly influence sex differences in behavior. The discovery of the Sry gene on the Y chromosome (Gubbay et al., 1990; Koopman et al., 1990) substantiated the sex chromosome mechanistic link to sex differences. Moreover, the pronounced connection between X chromosome gene mutations and mental illness produces a strong sex bias in these diseases. Yet, the dominant explanation for sex differences continues to be the gonadal hormones. Here we review progress made on behavioral differences in mouse models that uncouple sex chromosome complement from gonadal sex. We conclude that many social and cognitive behaviors are modified by sex chromosome complement, and discuss the implications for human research. Future directions need to include identification of the genes involved and interactions with these genes and gonadal hormones.

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KW - Four core genotypes

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KW - Sex differences

KW - Sexual differentiation

KW - Turner syndrome

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Mouse model systems to study sex chromosome genes and behavior: Relevance to humans

Abstract

Keywords

ASJC Scopus subject areas

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