Our paper using gene expression to characterize venom gland physiology has been accepted at Scientific Reports!
Congrats to Blair, Drew, Aundrea, Steve Mackessy, and Todd!
Perry, B.W, D.R. Schield, A.K. Westfall, S.P. Mackessy and T.A. Castoe. 2020. Physiological demands and signaling associated with snake venom production and storage illustrated by transcriptional analyses of venom glands. Scientific Reports. PDF.
Abstract
Despite the extensive body of research on snake venom, many facets of snake venom systems, such as the physiology and regulation of the venom gland itself, remain virtually unstudied. Here, we use time series gene expression analyses of the rattlesnake venom gland in comparison with several non-venom tissues to characterize physiological and cellular processes associated with venom production and to highlight key distinctions of venom gland cellular and physiological function. We find consistent evidence for activation of stress response pathways in the venom gland, suggesting that mitigation of cellular stress is a crucial component of venom production. Additionally, we demonstrate evidence for an unappreciated degree of cellular and secretory activity in the steady state venom gland relative to other secretory tissues and identify vacuolar ATPases as the likely mechanisms driving acidification of the venom gland lumen during venom production and storage.