Rong Mingqiang, Yang Shilong, Wen Bo, Mo Guoxiang, Kang Di, Liu Jie, Lin Zhilong, Jiang Wenbin, Li Bowen, Du Chaoqin, Yang Shuanjuan, Jiang Hui, Feng Qiang, Xu Xun, Wang Jun, Lai Ren
Key Laboratory of Animal Models and Human Disease Mechanisms of Chinese Academy of Sciences & Yunnan Province, Kunming Institute of Zoology, Kunming 650223, Yunnan, China.
BGI-Shenzhen, Shenzhen 518083, China.
J Proteomics. 2015 Jan 30;114:28-37. doi: 10.1016/j.jprot.2014.10.014. Epub 2014 Oct 29.
Centipedes are one of the oldest venomous arthropods using toxin as their weapon to capture prey. But little attention was focused on them and only few centipede toxins were demonstrated with activity on ion channels. Therefore, more deep works are needed to understand the diversity of centipede venom. In the present study, we use peptidomics combined with cDNA library to uncover the diversity of centipede Scolopendra subspinipes mutilans L. Koch. 192 peptides were identified by LC-MS/MS and 79 precursors were deduced by cDNA library. Surprisingly, the signal peptides of centipede toxins were more complicated than any other animal toxins and even exhibited large differences in homologues. Meanwhile, a large number of variants generated by alternative cleavage sites were detected by mass spectra. Odd number of cystein (3, 5, 7) found in the mature peptides were seldom seen in peptide toxins. In additional, two novel cysteine frameworks (C-C-C-CCC, C-C-C-C-CC-CC) were identified from 16 different cysteine frameworks from centipede peptides. Only 29 precursors have clear targets, while others may provide a potential diversity function for centipede. These findings highlight the extensive diversity of centipede toxins and provide powerful tools to understand the capture and defense weapon of centipede.
Peptide toxins from venomous animal have attracted increasing attentions due to their extraordinary chemical and pharmacological diversity. Centipedes are one of the most used Chinese traditional medicines, but little was known about the active components. The venom of Scolopendra subspinipes mutilans L. Koch is first deeply analyzed in this work and most of peptides were never discovered before. Interestingly, the number and arrangement of cysteine showed a larger different to known peptide toxins such spider or scorpion toxins. Moreover, only 29 peptides from this centipede venom were identified with known function. It suggested that our work not only important to understand the composition of centipede venom, but also provide many valuable peptides for potential biological functions.
蜈蚣是最古老的有毒节肢动物之一,它们利用毒素作为捕获猎物的武器。但人们对它们关注甚少,仅有少数蜈蚣毒素被证明对离子通道有活性。因此,需要更深入的研究来了解蜈蚣毒液的多样性。在本研究中,我们运用肽组学结合cDNA文库来揭示少棘蜈蚣毒液的多样性。通过液相色谱-串联质谱(LC-MS/MS)鉴定出192种肽,通过cDNA文库推导得出79种前体。令人惊讶的是,蜈蚣毒素的信号肽比其他任何动物毒素都更复杂,甚至在同源物中也表现出很大差异。同时,通过质谱检测到大量由可变切割位点产生的变体。在成熟肽中发现的奇数个半胱氨酸(3、5、7)在肽毒素中很少见。此外,从蜈蚣肽的16种不同半胱氨酸框架中鉴定出两种新的半胱氨酸框架(C-C-C-CCC、C-C-C-C-CC-CC)。只有29种前体有明确的靶点,其他的可能为蜈蚣提供潜在的多样功能。这些发现突出了蜈蚣毒素的广泛多样性,并为理解蜈蚣的捕获和防御武器提供了有力工具。
有毒动物的肽毒素因其非凡的化学和药理多样性而越来越受到关注。蜈蚣是最常用的中药之一,但对其活性成分了解甚少。本研究首次对少棘蜈蚣的毒液进行了深入分析,大多数肽此前从未被发现。有趣的是,半胱氨酸的数量和排列与已知的肽毒素如蜘蛛或蝎子毒素有很大不同。此外,这种蜈蚣毒液中只有29种肽被鉴定出具有已知功能。这表明我们的工作不仅对于理解蜈蚣毒液的组成很重要,而且为潜在的生物学功能提供了许多有价值的肽。
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