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Toxin diversity revealed by de novo transcriptome assembly for venom gland in two species of spiders (Trichonephila clavata and Sinopoda pengi). | LitMetric

Toxin diversity revealed by de novo transcriptome assembly for venom gland in two species of spiders (Trichonephila clavata and Sinopoda pengi).

Comp Biochem Physiol Part D Genomics Proteomics

Yunnan Provincial Key Laboratory of Entomological Biopharmaceutical R & D, Dali University, Dali 671000, China; National-Local Joint Engineering Research Center of Entomoceutics, Dali University, Dali 671000, China; Innovative Team of Dali University for Medicinal Insects & Arachnids Resources Digital Development, Dali 671000, China.

Published: June 2022

AI Article Synopsis

  • This study examines the diversity of toxins produced by two spider species, Trichonephila clavata, a web-spinner, and Sinopoda pengi, an ambush predator.
  • Transcriptomic analysis revealed 43 predicted toxin-related unigenes in S. pengi and 47 in T. clavata, classified into various families based on their structure.
  • The findings provide valuable molecular templates for potential applications in medical and biological research, laying groundwork for future studies on spider venom.

Article Abstract

During long-term predator-prey coevolution, spiders have generated a vast diversity of toxins. Trichonephila clavata is a web-spinning spider whose large, well-constructed webs and venomous arsenal facilitate prey capture. In contrast, Sinopoda pengi is an ambush predator with agile locomotion and strong chelicerae for hunting. In this study, transcriptomic analysis was performed to describe the predicted toxins of S. pengi and T. clavata. A total of 43 and 47 of these unigenes from S. pengi and T. clavata, respectively, were predicted to have toxin activity. Putative neurotoxins were classified to the family level according to cysteine arrangement; 4 and 6 toxin families were produced by S. pengi and T. clavata, respectively. In addition, potential metalloproteases, acetylcholinesterases, serine proteases, hyaluronidases and phospholipases were found by annotation in databases. In summary, molecular templates with potential application value for medical and biological fields were obtained by classifying and characterizing presumed venom components, which established a foundation for further study of venom.

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Source
http://dx.doi.org/10.1016/j.cbd.2022.100984DOI Listing

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