Project description:Agelena koreana is indigenous spider in South Korea that lives on piles of trees building webs. RNA-sequencing was performed for venom gland tissue and whole body except venom gland.

Project description:Callobius koreanus (C.koreanus) is a wandering spider and a member of the Amaurobiidae family, infraorder Araneae. RNA-sequencing was performend for venom gland tissue and whole body except venom gland.

Project description:Acanthoscurria juruenicola is an Amazonian tarantula spider described for the first time a century ago. Specimens of both genders are similar in size and in most morphological aspects, but ecological behavior and their venom composition remained unknown to date. Here we present the trascriptomics, proteomics and peptidomics characterization of the spider venom by a combination of mass spectrometric analysis of both native and digested peptides, venom gland transcriptomics and bioinformatics.

Project description:spider venom gland

Project description:Spider venom gland and venom symbiotic bacteria

Project description:Acanthoscurria juruenicola is an Amazonian tarantula spider described for the first time a century ago. Specimens of both genders are similar in size and in most morphological aspects, but ecological behavior and their venom composition remained unknown to date. Here we present the peptidomics characterization of the spider venom by a combination of mass spectrometric analysis of both native and digested peptides, venom gland transcriptomics and bioinformatics. A total of 367 native features were observed in the venom peptidome. Seventeen cysteine-rich peptides were simultaneously observed in the transcriptome and in the mass spectrometric experiments, from which fourteen were completely sequenced in the mature forms. The mature peptides have 3-5 disulfide bonds and cover the 3.7-8.6 kDa mass range. Moreover, in vivo paralytic activities of the whole venom were observed in crickets. In silico analysis indicated that all mature peptides are potentially antimicrobial and two may be potential anticancer agents. The antimicrobial activity was experimentally confirmed for the peptide Ap1a against Micrococcus luteus, Pseudomonas aeruginosa and Candida albicans.

Project description:Snake venom-gland transcriptomics

Project description:Scorpion venom gland transcriptomics

Project description:spider venom gland transcriptome of Sinopoda pengi

Project description:We generated ATAC-seq data for pre- and post-extraction venom gland samples and H3K4me3, H3K27ac, and CTCF ChIP-seq from post-extraction venom gland samples from the Prairie Rattlesnake to investigate patterns of chromatin accessibility, transcription factor binding, and insulation during venom production, and to identify open promoters and active enhancer regions.