Explaining <i>Echis</i>: Proteotranscriptomic Profiling of <i>Echis carinatus carinatus</i> Venom

Explaining <i>Echis</i>: Proteotranscriptomic Profiling of <i>Echis carinatus carinatus</i> Venom

Snakebite remains the most neglected tropical disease globally, with India experiencing the highest rates of mortality and morbidity. While most envenomation cases in India are attributed to the ‘big four’ snakes, research has predominantly focused on Russell’s viper (<i>Daboia russelii</i&...

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Bibliographic Details
Main Authors: Salil Javed, Prasad Gopalkrishna Gond, Arpan Samanta, Ajinkya Unawane, Muralidhar Nayak Mudavath, Anurag Jaglan, Kartik Sunagar
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Toxins
Subjects:
<i>Echis carinatus carinatus</i>
transcriptome
proteome
antivenom
ED<sub>50</sub>
Online Access:https://www.mdpi.com/2072-6651/17/7/353
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Summary:Snakebite remains the most neglected tropical disease globally, with India experiencing the highest rates of mortality and morbidity. While most envenomation cases in India are attributed to the ‘big four’ snakes, research has predominantly focused on Russell’s viper (<i>Daboia russelii</i>)<i>,</i> spectacled cobra (<i>Naja naja</i>)<i>,</i> and common krait (<i>Bungarus caeruleus</i>), leading to a considerable gap in our understanding of saw-scaled viper (<i>Echis carinatus carinatus</i>) venoms. For instance, the venom gland transcriptome and inter- and intra-population venom variation in <i>E. c. carinatus</i> have largely remained uninvestigated. A single study to date has assessed the effectiveness of commercial antivenoms against this species under in vivo conditions. To address these crucial knowledge gaps, we conducted a detailed investigation of <i>E. c. carinatus</i> venom and reported the first venom gland transcriptome. A proteotranscriptomic evaluation revealed snake venom metalloproteinases, C-type lectins, L-amino acid oxidases, phospholipase A<sub>2</sub>s, and snake venom serine proteases as the major toxins. Moreover, we assessed the intra-population venom variation in this species using an array of biochemical analyses. Finally, we determined the venom toxicity and the neutralising efficacy of a commercial antivenom using a murine model of snake envenoming. Our results provide a thorough molecular and functional profile of <i>E. c. carinatus</i> venom.
ISSN:2072-6651

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