Transcriptomic analyses reveals a diverse venom composition in Agelena limbata (Araneae: Agelenaidae)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-31 DOI:10.1016/j.cbd.2024.101303
Meng-hui Yang , Wen-zheng Cai , Luke R. Tembrock , Meng-meng Zhang , Meng-ying Zhang , Yu Zhao , Zizhong Yang Professor
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Abstract

Spider venom is a natural source of diverse biomolecules, but due to technical limitations, only a small fraction has been studied. With the advancement of omics technologies, research on spider venom has broadened, greatly promoting systematic studies of spider venom. Agelena limbata is a common spider found in vegetation, known for constructing funnel-shaped webs, and feeding on insects such as Diptera and Homoptera. However, due to its small size and the difficulty in obtaining venom, the composition of Agelena limbata venom has never been studied. In this study, a transcriptomics approach was used to analyze the toxin components in the venom of Agelena limbata, resulting in the identification of 28 novel toxin-like sequences and 24 peptidases. Based on sequence similarity and differences in cysteine motifs, the 28-novel toxin-like sequences were classified into 10 superfamilies. According to the results annotated in the database, the 24 peptidases were divided into six distinct families, with the serine protease family being the most common. A phylogenetic tree was constructed using the toxin-like sequences of Agelena limbata along with Psechrus triangulus and Hippasa lycosina. An analysis of the structural domains and motifs of Agelena limbata was also conducted. The results indicated that Agelena limbata is more distantly related to the other two species of funnel-web spiders, and that the toxin superfamily IX has a unique function compared to the other superfamilies. This study reveals the components of the Agelena limbata venom, deepening our understanding of it, and through bioinformatics analysis, has identified unique functions of the toxin superfamilies, providing a scientific basis for the development of bioactive drugs in the future.

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转录组分析揭示了 Agelena limbata(鹤形目:Agelenaidae)毒液成分的多样性。
蜘蛛毒液是多种生物大分子的天然来源,但由于技术限制,只有一小部分得到了研究。随着全息技术的发展,蜘蛛毒液的研究范围不断扩大,极大地促进了蜘蛛毒液的系统研究。Agelena limbata 是一种常见于植被中的蜘蛛,以结成漏斗状的网和捕食双翅目和同翅目昆虫而闻名。然而,由于其体型较小,且难以获得毒液,人们从未对 Agelena limbata 毒液的成分进行过研究。本研究采用转录组学方法分析了蛙鳉毒液中的毒素成分,结果发现了 28 个新型毒素样序列和 24 种肽酶。根据序列相似性和半胱氨酸基序的差异,28个新型毒素样序列被分为10个超家族。根据数据库中的注释结果,24 种肽酶被分为 6 个不同的家族,其中丝氨酸蛋白酶家族最为常见。利用边缘姬蛙毒素样序列、三角螯虾毒素样序列和番荔枝毒素样序列构建了一棵系统发生树。研究人员还分析了蛙蛙毒素的结构域和主题。结果表明,Agelena limbata 与其他两种漏斗网蜘蛛的亲缘关系较远,而且毒素超家族 IX 与其他超家族相比具有独特的功能。这项研究揭示了蛙蛛毒液的成分,加深了我们对其的了解,并通过生物信息学分析,确定了毒素超家族的独特功能,为今后开发生物活性药物提供了科学依据。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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