Comparative functional venomics of social hornets Vespa crabro and Vespa analis

The hornets Vespa crabro and V. analis are widely distributed in Asia and are known to be aggressive when disturbed, resulting in frequent stinging accidents. To investigate the differences in venom properties and toxicities between these two hornets, the transcriptomic profiles of venom glands, in...

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Bibliographic Details
Published in:Journal of Asia-Pacific entomology 2015, 18(4), , pp.815-823
Main Authors: Yoon, Kyungjae Andrew, Kim, Kyungmun, Nguyen, Phuong, Seo, Jong Bok, Park, Young Han, Kim, Ki-Gyoung, Seo, Hong-yul, Koh, Young Ho, Lee, Si Hyeock
Format: Article
Language:English
Subjects:
RNA sequencing
Transcriptional profiles
Venom gland
Venom peptide
VESPA
Vespa analis
Vespa crabro
Vespa crabrom,Vespa analis,Venom gland,Venom peptide,Transcriptional profiles,RNA sequencing
농수해양학
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Summary:The hornets Vespa crabro and V. analis are widely distributed in Asia and are known to be aggressive when disturbed, resulting in frequent stinging accidents. To investigate the differences in venom properties and toxicities between these two hornets, the transcriptomic profiles of venom glands, in conjunction with the venom components, were analyzed and compared. A total of 35 venom-specific genes were identified in both venom gland transcriptomes, but their transcriptional profiles were different between V. crabro and V. analis. In addition, the major venom components were identified and confirmed by mass spectroscopy. Prepromastoparan, vespid chemotactic peptide precursor and vespakinin were the top three genes most prevalently transcribed in the venom gland of V. crabro, and their transcription rates were 112-, 16- and 161-fold higher, respectively, compared with those in V. analis, as judged by FPKM values. In the venom gland of V. analis, however, vespid chemotactic peptide precursor was the most abundantly transcribed gene, followed by premastoparan and vespakinin. In general, most major venom genes were more abundantly expressed in V. crabro, whereas some minor venom genes exhibited higher transcription rates in V. analis, including muscle LIM protein, troponin, paramyosin, calponin, etc. Our findings reveal that the overall venom components of V. crabro and V. analis are similar, but that their expression profiles and levels are considerably different. The comparison of venom gland transcriptomes suggests that V. crabro likely produces venom with more highly enriched major venom components, which has potentially higher toxicity compared with V. analis venom. [Display omitted] •Venom gland transcriptomes of Vespa crabro and V. analis were analyzed.•The overall venom components of V. crabro and V. analis were similar.•Most major venom genes were more abundantly expressed in V. crabro.•Some minor venom genes exhibited higher transcription rates in V. analis.•V. crabro likely produces venom with higher toxicity compared with V. analis.
ISSN:1226-8615
1876-7990
DOI:10.1016/j.aspen.2015.10.005