肉鳍脊椎动物g6pc1基因的系统发育及其功能分化:对体温调节策略的影响

IF 0.9 4区 生物学 Q3 ZOOLOGY Zoological Science Pub Date : 2022-10-01 DOI:10.2108/zs210113
Genki Yamagishi, Min Kyun Park, Shinichi Miyagawa
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引用次数: 0

摘要

葡萄糖-6-磷酸酶催化亚基1 (G6PC1)催化内源性葡萄糖生产的最后限速步骤,对葡萄糖稳态至关重要。虽然哺乳动物中只有一个g6pc1基因,但其他脊椎动物有两到五个类似基因。在放光翼类动物中,已经报道了近亲之间的功能差异,并与适应性特征的获得有关。这些报道使得肉翼龙g6pc1成为一个有趣的研究课题,因为与放线翼龙的水生栖息地不同,肉翼龙已经成功地适应了陆地环境。然而,对肉龙g6pc1的进化知之甚少。本研究通过分子系统发育、合成分析和基因组环境比较等方法研究了肉龙g6pc1的进化历史。在一种爬行动物物种——日本壁虎中,也研究了近亲之间的功能差异,重点是肝脏中的基因表达。进化分析表明,两栖动物和羊膜动物是独立获得重复基因的。在羊膜动物中,基因复制发生在爬行动物-鸟类谱系的根部,产生了g6pc1-1和g6pc1-2类。虽然鸟类谱系随后失去了g6pc1-1,但爬行动物保留了这两个类。这种基因丢失和恒温动物获得的共同发生,再加上哺乳动物只拥有一个基因的观察结果,表明复制的g6pc1对恒温动物来说是必不可少的。定量RT-PCR分析显示,E2对g6pc1-1的表达下调,而g6pc1-2的表达无显著反应。这种对同类的特异性反应表明了同类之间的功能差异,这可能与生殖有关。
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Phylogeny of g6pc1 Genes and Their Functional Divergence among Sarcopterygian Vertebrates: Implications for Thermoregulatory Strategies.

Glucose-6-phosphatase catalytic subunit 1 (G6PC1) catalyzes the final rate-limiting step in endogenous glucose production and is critically important for glucose homeostasis. Although a single g6pc1 gene is present in mammals, other vertebrates possess two to five paralogs. Functional divergence between paralogs has been reported in actinopterygians and has been implicated in the acquisition of adaptive characteristics. Such reports make sarcopterygian g6pc1 an interesting research topic because unlike the aquatic habitat of actinopterygians, sarcopterygians have successfully adapted to terrestrial environments. However, little is known about the evolution of sarcopterygian g6pc1. In the present study, the evolutionary history of sarcopterygian g6pc1 was investigated using molecular phylogeny, synteny analyses, and comparison of the genomic environment. Functional divergence between paralogs was also investigated in a reptilian species, the Japanese gecko, with a focus on gene expression in the liver. Evolutionary analyses suggested that amphibians and amniotes acquired duplicated genes independently. Among the amniotes, gene duplication occurred at the root of the reptilian-avian lineage, giving rise to g6pc1-1 and g6pc1-2 classes. While the avian lineage subsequently lost the g6pc1-1, the reptiles retained both classes. This co-occurrence of gene loss and endothermy acquisition, together with the observation that mammals possess only a single gene, suggests that the duplicated g6pc1 is dispensable for endotherms. Quantitative RT-PCR analyses revealed that the two gecko genes respond differently to E2 administration, as the expression of g6pc1-1 was downregulated by E2, whereas g6pc1-2 showed no significant response. Such paralog-specific responses suggest functional divergence between paralogs, which is possibly related to reproduction.

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来源期刊
Zoological Science
Zoological Science 生物-动物学
CiteScore
1.70
自引率
11.10%
发文量
59
审稿时长
1 months
期刊介绍: Zoological Science is published by the Zoological Society of Japan and devoted to publication of original articles, reviews and editorials that cover the broad field of zoology. The journal was founded in 1984 as a result of the consolidation of Zoological Magazine (1888–1983) and Annotationes Zoologicae Japonenses (1897–1983), the former official journals of the Zoological Society of Japan. Each annual volume consists of six regular issues, one every two months.
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