Citation

Cooper AM, Kelln WJ, Hayes WK. Zoology (Jena) 2014; 117(6): 398-414.

Affiliation

Department of Earth and Biological Sciences, Griggs Hall #101, Loma Linda University, 24941 Stewart St., Loma Linda, CA 92350, USA.

Copyright

(Copyright © 2014, Elsevier Publishing)

DOI

10.1016/j.zool.2014.06.007

PMID

25456977

Abstract

Venom regeneration comprises a vital process in animals that rely on venom for prey capture and defense. Venom regeneration in scolopendromorph centipedes likely influences their ability to subdue prey and defend themselves, and may influence the quantity and quality of venom extracted by researchers investigating the venom's biochemistry. We investigated venom volume and total protein regeneration during the 14-day period subsequent to venom extraction in the North American centipede Scolopendra polymorpha. We further tested the hypothesis that venom protein components, separated by reversed-phase fast protein liquid chromatography (RP-FPLC), undergo asynchronous (non-parallel) synthesis. During the first 48h, volume and protein mass increased linearly. Protein regeneration lagged behind volume regeneration, with 65-86% of venom volume and 29-47% of protein mass regenerated during the first 2 days. No additional regeneration occurred over the subsequent 12 days, and neither volume nor protein mass reached initial levels 7 months later (93% and 76%, respectively). Centipede body length was negatively associated with rate of venom regeneration. Analysis of chromatograms of individual venom samples revealed that 5 of 10 chromatographic regions and 12 of 28 peaks demonstrated changes in percent of total peak area (i.e., percent of total protein) among milking intervals, indicating that venom proteins are regenerated asynchronously. Moreover, specimens from Arizona and California differed in relative amounts of some venom components. The considerable regeneration of venom occurring within the first 48h, despite the reduced protein content, suggests that predatory and defensive capacities are minimally constrained by the timing of venom replacement.

Language: en