Regulation of early spermatogenesis in the giant prawn Macrobrachium rosenbergii by a GCL homolog†.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Jonathan Molcho, Dana Albagly, Tom Levy, Rivka Manor, Eliahu D Aflalo, Jorge Alfaro-Montoya, Amir Sagi
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Abstract

The germ cell-less gene is crucial for gonad development in various organisms. Early interventions in its expression suggested a regulatory role at the mitotic stages of spermatogenesis, and its early knockout resulted in complete sterility in Drosophila. Genomic and transcriptomic data available for the catadromous giant prawn Macrobrachium rosenbergii enabled the identification of a germ cell-less homolog for this species, which we termed MroGCL (mRNA accession number OQ533056). An open reading frame containing 494 amino acids and a typical evolutionarily conserved BTB/POZ domain suggests possible protein-protein interaction functions in keeping with the Drosophila germ cell-less protein. Genomic mapping of MroGCL showed a full length of 120 896 bases. Analysis of the temporal expression of MroGCL showed constant expression in early prawn embryonic and larval stages, but a significant increase 10 days after metamorphosis when crucial sexual differentiation processes occur in prawns. In adult animals, high expression was detected in the gonads compared to the somatic tissues. RNAi-based knock-down experiments showed that both the silenced and control groups reached advanced spermatogenic stages, but that there was a significant decrease in the yield of spermatozoa in about half of the silenced animals. This finding supports our hypothesis that MroGCL is crucial for mitosis during early stage spermatogenesis. In conclusion, this study contributes to the understanding of crustacean gonad development and provides a stepping stone in the development of environmentally valuable sterile crustacean populations.

GCL 同源物对大对虾早期精子发生的调控
无生殖细胞(GCL)基因对各种生物的性腺发育至关重要。对该基因表达的早期干预表明,它在精子发生的有丝分裂阶段起着调控作用,早期敲除该基因会导致果蝇完全不育。溯河产卵大对虾(Macrobrachium rosenbergii)的基因组和转录组数据使我们能够确定该物种的GCL同源物,我们称之为MroGCL(mRNA登录号OQ533056)。开放阅读框(ORF)包含 494 个氨基酸和一个典型的进化保守的 BTB/POZ 结构域,这表明它可能具有果蝇 GCL 蛋白的蛋白质相互作用功能。MroGCL 的基因组图谱显示其全长为 120,896 个碱基。对 MroGCL 的时间表达分析表明,在对虾胚胎早期和幼体阶段,其表达量保持不变,但在对虾变态后 10 天,即对虾发生关键性分化过程时,其表达量显著增加。在成体动物中,与体细胞组织相比,性腺中的表达量较高。基于 RNAi 的基因敲除实验表明,沉默组和对照组都达到了精子发生的高级阶段,但大约一半沉默动物的精子产量显著下降。这一发现支持了我们的假设,即MroGCL对精子发生早期的有丝分裂至关重要。因此,这项研究有助于人们了解甲壳类生殖腺的发育,并为开发具有环境价值的甲壳类不育种群提供了一块垫脚石。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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