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Interspecific and Intraspecific Venom Enzymatic Variation Among Cobras (Naja Sp. and Ophiophagus Hannah) Publisher Pubmed



Modahl CM1, 2 ; Roointan A2, 3 ; Rogers J1 ; Currier K1 ; Mackessy SP1
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Authors Affiliations
  1. 1. School of Biological Sciences, University of Northern Colorado, 501 20th St., Greeley, 80639-0017, CO, United States
  2. 2. Department of Biological Sciences, National University of Singapore, 14 Science Drive 4, 117543, Singapore
  3. 3. Regenerative Medicine Research Center, Isfahan University of Medical Sciences, Isfahan, Iran

Source: Comparative Biochemistry and Physiology Part - C: Toxicology and Pharmacology Published:2020


Abstract

The genera Ophiophagus and Naja comprise part of a clade of snakes referred to as cobras, dangerously venomous front-fanged snakes in the family Elapidae responsible for significant human mortality and morbidity throughout Asia and Africa. We evaluated venom enzyme variation for eleven cobra species and three N. kaouthia populations using SDS-PAGE venom fingerprinting and numerous enzyme assays. Acetylcholinesterase and PLA2 activities were the most variable between species, and PLA2 activity was significantly different between Malaysian and Thailand N. kaouthia populations. Venom metalloproteinase activity was low and significantly different among most species, but levels were identical for N. kaouthia populations; minor variation in venom L-amino acid oxidase and phosphodiesterase activities were seen between cobra species. Naja siamensis venom lacked the α-fibrinogenolytic activity common to other cobra venoms. In addition, venom from N. siamensis had no detectable metalloproteinase activity and exhibited an SDS-PAGE profile with reduced abundance of higher mass proteins. Venom profiles from spitting cobras (N. siamensis, N. pallida, and N. mossambica) exhibited similar reductions in higher mass proteins, suggesting the evolution of venoms of reduced complexity and decreased enzymatic activity among spitting cobras. Generally, the venom proteomes of cobras show highly abundant three-finger toxin diversity, followed by large quantities of PLA2s. However, PLA2 bands and activity were very reduced for N. haje, N. annulifera and N. nivea. Venom compositionalenzy analysis provides insight into the evolution, diversification and distribution of different venom phenotypes that complements venomic data, and this information is critical for the development of effective antivenoms and snakebite treatment. © 2020