促性腺激素亚基基因在生殖失活金仓鼠中的表达。

Development & reproduction Pub Date : 2022-06-01 Epub Date: 2022-06-30 DOI:10.12717/DR.2022.26.2.37
Donchan Choi
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摘要

光周期对金仓鼠睾丸活动的调节作用已被证实。这些动物在夏季繁殖活跃,但在冬季变得不育。在夏季,男性的睾丸充满了包括精子在内的多步骤生殖细胞。但在冬天,只能检测到构成睾丸的基本细胞。睾丸变性伴随着血液中促性腺激素和睾酮水平的降低。本研究研究了促性腺激素亚基基因在生殖活性和非生殖活性睾丸中的表达。鉴定了部分促性腺激素亚基序列,并与其他啮齿动物进行了比较。结果表明,在性活跃和性不活跃动物的垂体中均检测到常见的促性腺激素α (CGa)、促卵泡激素(FSH) β和促黄体生成素(LH) β基因。考虑到垂体中性腺促性腺激素的低浓度,目前的研究结果表明,在性不活跃的仓鼠中,涉及功能激素的翻译和/或形成的过程可能受到阻碍。除CGa中的一个碱基外,本研究鉴定的促性腺激素亚基的核苷酸序列均与先前报道的相同。从CGa序列推断出的不确定氨基酸从mRNA测序中得到证实。上述结果表明,睾丸退化的动物为即将到来的性活跃期做了准备。
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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Expressions of Gonadotropin Subunit Genes in the Reproductively Inactive Golden Hamsters.

Photoperiod has well been established to regulate testicular activities in golden hamsters. These animals breed actively around summer but become infertile in winter. In males, testicles are full of multistep germ cells including spermatozoa in summer. But in winter only fundamental cells consisting of the testicles are detected. The testicular degeneration is accompanied by the reduced levels of blood gonadotropins and testosterone. In this study, the expressions of gonadotropin subunit genes were investigated in the reproductive active and inactive testicles. And parts of sequences of the gonadotropin subunits were identified and compared with those of other rodents. As results, common gonadotropin alpha (CGa), follicle-stimulating hormone (FSH) β, and luteinizing hormone (LH) β genes were equivalently detected in pituitaries of both sexually active and inactive animals. In considering low concentrations of gonadotropin hormones determined in pituitary, the present findings imply that the processes involved in translation and/or formation of functional hormones could be impeded in the sexually inactive hamsters. All the nucleotide sequences of gonadotropin subunits identified in this study were same as those reported previously except for one base in CGa. An unsure amino acid deduced from the CGa sequence was confirmed from mRNA sequencing. The outcomes mentioned above suggest that animals with regressed testes prepare for the sexually active period forthcoming in the future.

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