共查询到19条相似文献,搜索用时 46 毫秒
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两栖动物的不同科或属,乃至同一物种不同的地理种群内具有两种不同的性别决定系统,这种系统发生分布特征显示两栖动物的性别决定系统经历了多次转换。同型性染色体在许多两栖动物中存在,"高频转换"假说和"fountain-of-youth"假说是其形成的两种可能机制。激素在两栖动物性别决定早期起着重要作用。此外,我们还重点介绍了两栖动物中迄今唯一确认的性别决定基因(DM-W基因)。该综述将增进对两栖动物性别决定机制的多样性及其起源的认识,并为濒危两栖动物的物种保护和种群恢复以及养殖群体的利用提供科学依据。 相似文献
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哺乳动物的性别发育经历了个连续不同时期;受精时期性染色体的构建(XY或XX);性腺发育和分化(精巢或卵巢);获得恰当的性别表现型(雄性或雌性)。人们已经发现睾丸决定因子(Testis determining factor)就是SRY(Sex determining region on Y chromosome),并逐渐确定了其他与性别决定和性别反转相关的基因,如SOX9,DAX1,SF1,WT1,GATA-4等。综述了与哺乳动物性别控制有关的基因研究进展。 相似文献
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鸡性别决定虽然同哺乳动物一样受遗传控制,但其性染色体组成为ZZ/ZW,同哺乳动物相反呈现雌异型,并且鸡性腺性别分化同一些低等脊椎动物一样易受性激素影响。目前参照哺乳动物性别决定相关基因已获得了一些鸡同源基因序列(AMH,SF1,DAX1,SOX9)和3个可能与鸡性别决定有重要关联的候选基因(DMRT1,ASW和FET1)。对这些基因的表达模式及其在层次调控中的功能比较分析结果显示,鸡性别决定的遗传机制同其它脊椎动物相对一致,但也有明显的不同。 相似文献
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性别决定基因的研究进展 总被引:15,自引:4,他引:15
SRY基因在哺乳动物性别分化中起着关键作用,目前研究认为SRY仅是性别决
定过程的基因之一,其他基因如SOX基因家族、MIS、SF-1、DAX1、DSS等基因都参与了性腺分化与发育。性别决定研究取得很大进展并建立了一些假说,但仍有一些问题有待于进一步研究。
Abstract:In mammals the male sex determination switch is controlled by a single gene on the Y chromosome SRY.Apart from SRY,other genes,such as SOX gene family、MIS、SF-1、DAX1、DSS also take part in sex determination.Scientists have made great progress in research on sex determination and proposed some hypotheses.,but there are still many questions to be solved. 相似文献
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Rachid Safi Agnès Begue Catherine Hänni Dominique Stehelin Jamshed R. Tata Vincent Laudet 《Journal of molecular evolution》1997,44(6):595-604
Since thyroid hormones play a pivotal role in amphibian metamorphosis we used PCR to amplify DNA fragments corresponding
to a portion of the ligand-binding domain of the thyroid hormone receptor (TR) genes in several neotenic amphibians: the obligatory
neotenic members of the family Proteidea the mudpuppy Necturus maculosus and Proteus anguinus as well as two members of the facultative neotenic Ambystoma genus: the axolotl Ambystoma mexicanum and the tiger salamander Ambystoma tigrinum. In addition, we looked for TR genes in the genome of an apode Typhlonectes compressicaudus. TR genes were found in all these species including the obligatory neotenic ones. The PCR fragments obtained encompass both
the C and E domains and correspond to α and β genes. Their sequences appear to be normal, suggesting that there is no acceleration
of evolutionary rates in the TR genes of neotenic amphibians. This result is not surprising for Ambystomatidae, which are
known to respond to T3 (3,3′,5-triiodothyronine) but is not in agreement with biochemical and biological data showing that
Proteidea cannot respond to thyroid hormones. Interestingly, by RT-PCR analysis we observed a high expression levels of TRα
in gills, intestine, and muscles of Necturus as well as in the liver of Ambystoma mexicanum, whereas TRβ expression was only detected in Ambystoma mexicanum but not in Necturus. Such a differential expression pattern of TRα and TRβ may explain the neoteny in Proteidea. The cloning of thyroid-hormone-receptor
gene fragments from these species will allow the molecular study of their failure to undergo metamorphosis.
Received: 23 April 1996 / Accepted: 20 January 1997 相似文献
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Sex Determination by Sex Chromosomes in Dioecious Plants 总被引:5,自引:0,他引:5
Abstract: Sex chromosomes have been reported in several dioecious plants. The most general system of sex determination with sex chromosomes is the XY system, in which males are the heterogametic sex and females are homogametic. Genetic systems in sex determination are divided into two classes including an X chromosome counting system and an active Y chromosome system. Dioecious plants have unisexual flowers, which have stamens or pistils. The development of unisexual flowers is caused by the suppression of opposite sex primordia. The expression of floral organ identity genes is different between male and female flower primordia. However, these floral organ identity genes show no evidence of sex chromosome linkage. The Y chromosome of Rumex acetosa contains Y chromosome-specific repetitive sequences, whereas the Y chromosome of Silene latifolia has not accumulated chromosome-specific repetitive sequences. The different degree of Y chromosome degeneration may reflect on evolutionary time since the origination of dioecy. The Y chromosome of S. latifolia functions in suppression of female development and initiation and completion of anther development. Analyses of mutants suggested that female suppressor and stamen promoter genes are localized on the Y chromosome. Recently, some sex chromosome-linked genes were isolated from flower buds of S. latifolia. 相似文献
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芦笋性别决定与性别分化研究进展 总被引:1,自引:0,他引:1
从芦笋性别表现及其决定的遗传基础、性别分化途径,性别决定基因的定位以及性别分化特异表达基因的分离与分析等方面来综述芦笋性别决定与性别分化最新研究进展。目前,已构建了围绕芦笋性别决定基因M比较精细的遗传图谱,将M定位在L5染色体着丝点附近的0.63 cM区域内,并构建了含有8个跨叠克隆群的物理图谱,但由于大量重复序列的存在,跨叠克隆之间的空隙不能闭合;同时先后分离得到11个芦笋花器官发育特异表达基因,并通过序列分析和原位杂交等技术对这些基因的功能进行了分析。最后,对今后进一步研究提出了建议。 相似文献
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温度对江黄颡鱼性分化的影响 总被引:8,自引:0,他引:8
通过组织学方法观察江黄颡鱼原始生殖细胞(PGCs)迁移、生殖嵴生成和性腺分化,并且探讨在不同温度培育下性腺分化的差异。实验结果显示:1日龄仔鱼PGCs位于鱼体中肠背方的脏壁中胚层中;5日龄时,PGCs迁移到背方的腹膜上皮;8日龄时,生殖嵴形成;14日龄时,原始性腺形成;23日龄时,性腺开始分化。从孵化后的第10天开始,分别用(20±0.5)、(24±1.0自然水温、对照组)、(30±0.5)和(34±0.5)℃4种水温培育仔鱼达25天。实验结束后统计结果显示:对照组和(20±0.5)℃组的雌、雄性比接近1∶1(分别为1∶1.09和1.22∶1);(30±0.5)℃组的为1∶4.89,雄性率达(83.3±0.7)%;(34±0.5)℃组的为2.85∶1,雄性率仅为(26.4±0.4)%。提示(30±0.5)℃可使幼鱼性腺发育趋向雄性,(34±0.5)℃则使幼鱼性腺发育趋向雌性。实验结果表明,江黄颡鱼的性分化是属于温度依赖型性别决定。 相似文献