Contribution of domestic animals to the identification of new genes involved in sex determination.

The Journal of experimental zoology. Supplement : published under auspices of the American Society of Zoologists and the Division of Comparative Physiology and Biochemistry Pub Date : 2001-12-01 DOI:10.1002/JEZ.1120

E. Pailhoux, B. Vigier, Daniel Vaiman, L. Schibler, A. Vaiman, E. Cribiu, C. Nezer, M. Georges, J. Sundström, L. Pelliniemi, M. Fellous, C. Cotinot

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引用次数: 26

Abstract

Among farm animals, two species present an intersex condition at a relatively high frequency: pig and goat. Both are known to contain XX sex-reversed individuals which are genetically female but with a true hermaphrodite or male phenotype. It has been clearly demonstrated that the SRY gene is not involved in these phenotypes. Consequently, autosomal or X-linked mutations in the sex-determining pathway may explain these sex-reversed phenotypes. A mutation referred to as "polled" has been characterized in goats by the suppression of horn formation and abnormal sexual differentiation. The Polled Intersex Syndrome locus (PIS) was initially located in the distal region of goat chromosome 1. The homologous human region has been precisely identified as an HSA 3q23 DNA segment containing the Blepharophimosis Ptosis Epicanthus locus (BPES), a syndrome combining Premature Ovarian Failure (POF) and an excess of epidermis of the eyelids. In order to isolate genes involved in pig intersexuality, a similar genetic approach was attempted in pigs using genome scanning of resource families. Genetic analyses suggest that pig intersexuality is controlled multigenically. Parallel to this work, gonads of fetal intersex animals have been studied during development by light and electron microscopy. The development of testicular tissue and reduction of germ cell number by apoptosis, which simultaneously occurs as soon as 50 days post coïtum, also suggests that several separate genes could be involved in pig intersexuality.

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家畜对性别决定新基因鉴定的贡献。

在农场动物中，有两种动物出现双性的频率相对较高:猪和山羊。已知两者都含有XX个性别反转的个体，这些个体在基因上是女性，但具有真正的雌雄同体或男性表型。已经清楚地证明SRY基因与这些表型无关。因此，性别决定途径中的常染色体或x连锁突变可以解释这些性别逆转的表型。一种被称为“被投票”的突变在山羊中表现为抑制角的形成和异常的性别分化。投票间性综合征位点(PIS)最初位于山羊1号染色体远端区域。同源的人类区域已被精确地鉴定为HSA 3q23 DNA片段，其中包含睑袋性上睑下垂(BPES)，这是一种合并卵巢早衰(POF)和眼睑表皮过度的综合征。为了分离与猪间性有关的基因，在猪中尝试了类似的遗传方法，使用资源家族的基因组扫描。遗传分析表明猪的雌雄间性是由多基因控制的。与此同时，用光学显微镜和电子显微镜研究了胚胎雌雄动物的性腺发育过程。在coïtum出生后50天内，睾丸组织的发育和生殖细胞数量的减少同时发生，这也表明猪的雌雄间性可能涉及几个不同的基因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of experimental zoology. Supplement : published under auspices of the American Society of Zoologists and the Division of Comparative Physiology and Biochemistry

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