AI Article Synopsis
- - Two proposed snake species, Sichuan and Zhejiang Burmese vipers, show distinct external features and skeletal structures, but their genetic differences remain unclear, leading some researchers to hesitate on reclassifying them.
- - A comparative analysis of the venom from these groups revealed eight protein families, with phospholipase B found only in Sichuan venom and notable differences in the abundance of phospholipase A between the two.
- - The study indicates that Zhejiang venom is more toxic and exhibits greater enzymatic activity than Sichuan venom, affecting how antivenoms interact with their venoms; this understanding is crucial for managing snakebite cases effectively.
Article Abstract
Two recently revised snakes with apparent differences in their external appearances and skeletal morphologies but unclear genetic boundaries have been proposed. Some researchers have refrained from using the newly proposed taxonomy because these two "species" might be two clades corresponding to different geographical populations of . To improve the understanding of the kinship of these two Burmese viper groups, more of their characteristics should be explored in depth. We performed a comparative analysis of the proteomic profiles and biochemical activities of snake venoms from these two groups (Sichuan and Zhejiang ) and evaluated the immunorecognition capacity of commercial antivenoms toward them. Eight protein families were identified in venoms from these two groups, while phospholipase B was only detected in venom from Sichuan . These protein families displayed varying degrees of differences in relative abundance between venoms, and phospholipase A (Sichuan : 57.15%; Zhejiang : 65.94%) was the predominated component. antivenom exhibited the strongest capacity to immunologically recognize these two venoms, but this was mainly limited to components with high molecular masses, some of which differed between venoms. Additionally, Zhejiang venom was more toxic than Sichuan venom, and the venoms expressed remarkable differences in enzymatic activities, probably resulting from the variation in the relative abundance of specific protein families. Our findings unveil differences between the two Burmese viper groups in terms of proteomic profiles, immunoreactivity, and the biochemical functions of their venoms. This information will facilitate the management of snakebites caused by these snakes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9416478 | PMC |
| http://dx.doi.org/10.3390/toxins14080572 | DOI Listing |
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