Transcriptomic Analysis Reveals Diverse Expression of Scorpion Toxin Genes in Mesobuthus martensii

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Zhongxian Yang, Haiquan Wang, Yan Zhao, Jianyu Huang, Chao Zhang, Zhiyong Di
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Abstract

Scorpions, an ancient group of venomous invertebrates, have existed for over 430 million years. Their toxins, important for predation and defense, exhibit a variety of biological and pharmacological activities. Research on scorpion toxins has spanned decades. Notably, the toxin genes of Mesobuthus martensii (Scorpiones: Buthidae), a well-known Chinese herbal medicine, have been described at genomic and proteomic levels. However, previous studies primarily focused on the toxin genes expressed in the venom glands, overlooking their expression in multiple tissues. This study analyzed transcriptomes from 14 tissues of M. martensii. Gene annotation revealed 83 toxin and toxin-like genes, including those affecting sodium, potassium, calcium, and chloride ion channels. Approximately 70% of toxin genes were highly expressed in the vesicle; additionally, some exhibited low or no expression in the vesicle while showing high expression in other tissues. Beyond the vesicle, high expression levels of toxin genes were observed in metasoma segments II-V, blood, lateral eyes, chelicerae, legs, pedipalp chelae, femurs, and patellae. This expression pattern suggests that toxin genes are recruited from multiple tissues and may help prevent intraspecific harm during courtship and competition for prey. These findings inspire further research into the evolutionary recruitment process of scorpion toxins.
转录组分析揭示了蝎毒素基因在貂蝎体内的多种表达方式
蝎子是一类古老的有毒无脊椎动物,已有 4.3 亿多年的历史。它们的毒素对捕食和防御非常重要,具有多种生物和药理活性。对蝎子毒素的研究已经持续了几十年。值得注意的是,人们已经在基因组和蛋白质组水平上描述了一种著名的中药蝎子(Mesobuthus martensii,蝎科:Buthidae)的毒素基因。然而,以往的研究主要集中在毒腺中表达的毒素基因,忽略了它们在多种组织中的表达。本研究分析了貂蝉 14 种组织的转录组。基因注释发现了 83 个毒素和类毒素基因,包括影响钠、钾、钙和氯离子通道的基因。约 70% 的毒素基因在囊泡中高表达;此外,一些基因在囊泡中表达量较低或无表达,而在其他组织中则表现出高表达。除囊泡外,在变态体第 II-V 节、血液、侧眼、螯、腿、足螯、股骨和髌骨中也观察到毒素基因的高表达水平。这种表达模式表明,毒素基因是从多个组织中招募的,可能有助于防止求偶和争夺猎物过程中的种内伤害。这些发现启发我们进一步研究蝎子毒素的进化招募过程。
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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