Genome-wide association analysis reveals the genetic basis of thermal tolerance in dwarf surf clam Mulinia lateralis

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Haoran Wang , Zujing Yang , Shenhai Wang , Ang Zhao , Hao Wang , Zhi Liu , Mingyi Sui , Lijingjing Bao , Qifan Zeng , Jingjie Hu , Zhenmin Bao , Xiaoting Huang
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Abstract

Recently, elevated seawater temperatures have resulted numerous adverse effects, including significant mortality among bivalves. The dwarf surf clam, Mulinia lateralis, is considered a valuable model species for bivalve research due to its rapid growth and short generation time. The successful cultivation in laboratory setting throughout its entire life cycle makes it an ideal candidate for exploring the potential mechanisms underlying bivalve responses to thermal stress. In this study, a total of 600 clams were subjected to a 17-day thermal stress experiment at a temperature of 30 °C which is the semi-lethal temperature for this species. Ninety individuals who perished initially were classified as heat-sensitive populations (HSP), while 89 individuals who survived the experiment were classified as heat-tolerant populations (HTP). Subsequently, 179 individuals were then sequenced, and 21,292 single nucleotide polymorphisms (SNPs) were genotyped for downstream analysis. The heritability estimate for survival status was found to be 0.375 ± 0.127 suggesting a genetic basis for thermal tolerance trait. Furthermore, a genome-wide association study (GWAS) identified three SNPs and 10 candidate genes associated with thermal tolerance trait in M. lateralis. These candidate genes were involved in the ETHR/EHF signaling pathway and played pivotal role in signal sensory, cell adhesion, oxidative stress, DNA damage repair, etc. Additionally, qPCR results indicated that, excluding MGAT4A, ZAN, and RFC1 genes, all others exhibited significantly higher expression in the HTP (p < 0.05), underscoring the critical involvement of the ETHR/EHF signaling pathway in M. lateralis' thermal tolerance. These results unveil the presence of standing genetic variations associated with thermal tolerance in M. lateralis, highlighting the regulatory role of the ETHR/EHF signaling pathway in the bivalve's response to thermal stress, which contribute to comprehension of the genetic basis of thermal tolerance in bivalves.

全基因组关联分析揭示了矮海蛤Mulinia lateralis耐热性的遗传基础。
最近,海水温度升高造成了许多不利影响,包括双壳类动物的大量死亡。矮海蛤(Mulinia lateralis)因其生长速度快、生成时间短而被视为双壳类研究的重要模式物种。它在整个生命周期中都能在实验室环境中成功培育,因此是探索双壳类动物对热应力反应的潜在机制的理想候选物种。在这项研究中,共对 600 只蛤蜊进行了为期 17 天的热应力实验,实验温度为 30 °C,这是该物种的半致死温度。最初死亡的 90 个个体被归类为热敏感种群(HSP),而实验中存活的 89 个个体被归类为耐热种群(HTP)。随后,对 179 个个体进行了测序,并对 21,292 个单核苷酸多态性(SNP)进行了基因分型,以便进行下游分析。研究发现,存活状态的遗传率估计值为 0.375 ± 0.127,这表明热耐受性性状具有遗传基础。此外,一项全基因组关联研究(GWAS)发现了三个 SNPs 和 10 个候选基因与侧耳藻的耐热性相关。这些候选基因参与了 ETHR/EHF 信号通路,在信号传感、细胞粘附、氧化应激、DNA 损伤修复等方面起着关键作用。此外,qPCR 结果表明,除 MGAT4A、ZAN 和 RFC1 基因外,其他基因在 HTP 中的表达量均显著较高(p
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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