Histone Modifications in the Anoxic Northern Crayfish, Faxonius virilis

IF 2.6 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Marine Biotechnology Pub Date : 2024-11-22 DOI:10.1007/s10126-024-10394-w
Imane Rhzali, Kenneth B. Storey
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Abstract

Northern Crayfish, Faxonius virilis, displays various strategies that allow them to survive extended periods of oxygen deprivation. However, certain epigenetic adaptations that these crayfish use have not been studied in detail, and the role of specific mechanisms used such as histone modifications remain unknown. Epigenetic studies offer a new perspective on how crayfish can regulate gene expression to redirect energy to essential functions needed for survival. This study investigates the regulation of histone modifications of proteins including acetylation and deacetylation in F. virilis in response to 20-h anoxia exposure. These histone modifications were studied via analysis of writer, reader, and eraser proteins such as lysine acetyltransferases (KATs), bromodomain proteins (BRDs), histone deacetylases (HDAC), and sirtuin proteins (SIRTs). Significant upregulation was seen in one histone protein and one lysine acetyltransferase: H3K14Ac and KAT2A. These proteins are known to be regulated by BRD2; a protein that specifically reads and targets H3K14Ac. In response to anoxia, a larger number of histone deacetylases and sirtuin proteins were upregulated in comparison to lysine acetyltransferases suggesting a focus on suppression of gene expression. The histone deacetylases and sirtuin proteins with significant upregulation were HDAC2, HDAC3, SIRT2, SIRT3, and SIRT6. These proteins have also all been implicated in DNA damage regulation which further suggests that crayfish focus limited energy on ensuring cell survival. This study provides an understanding of how histone acetylation and deacetylation are regulated in crayfish as a component of metabolic rate suppression under anoxia.

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缺氧北螯虾的组蛋白修饰
北螯虾--Faxonius virilis--表现出多种策略,使它们能够在长时间缺氧的情况下存活下来。然而,这些螯虾所使用的某些表观遗传适应方法尚未得到详细研究,组蛋白修饰等特定机制的作用也仍然未知。表观遗传学研究为了解小龙虾如何调节基因表达以将能量重新导向生存所需的基本功能提供了一个新的视角。本研究调查了螯虾在缺氧 20 小时后对蛋白质组蛋白修饰(包括乙酰化和去乙酰化)的调控。这些组蛋白修饰是通过分析赖氨酸乙酰转移酶(KATs)、溴域蛋白(BRDs)、组蛋白去乙酰化酶(HDAC)和sirtuin蛋白(SIRTs)等书写蛋白、阅读蛋白和擦除蛋白来研究的。一种组蛋白和一种赖氨酸乙酰转移酶(H3K14Ac 和 KAT2A)出现了显著的上调。众所周知,这些蛋白质受 BRD2 的调控;BRD2 是一种能特异性读取并靶向 H3K14Ac 的蛋白质。在缺氧反应中,与赖氨酸乙酰转移酶相比,组蛋白去乙酰化酶和 sirtuin 蛋白的上调数量更多,这表明抑制基因表达是重点。显著上调的组蛋白去乙酰化酶和 sirtuin 蛋白包括 HDAC2、HDAC3、SIRT2、SIRT3 和 SIRT6。这些蛋白也都与 DNA 损伤调控有关,这进一步表明小龙虾将有限的精力集中在确保细胞存活上。这项研究有助于了解组蛋白乙酰化和去乙酰化是如何在缺氧条件下调节小龙虾代谢率的。
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来源期刊
Marine Biotechnology
Marine Biotechnology 工程技术-海洋与淡水生物学
CiteScore
4.80
自引率
3.30%
发文量
95
审稿时长
2 months
期刊介绍: Marine Biotechnology welcomes high-quality research papers presenting novel data on the biotechnology of aquatic organisms. The journal publishes high quality papers in the areas of molecular biology, genomics, proteomics, cell biology, and biochemistry, and particularly encourages submissions of papers related to genome biology such as linkage mapping, large-scale gene discoveries, QTL analysis, physical mapping, and comparative and functional genome analysis. Papers on technological development and marine natural products should demonstrate innovation and novel applications.
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