Abstract

The present work aims to clarify the genotype differences of a model organism Saccharomyces cerevisiae in response to bee venom.The study evaluated various endpoints including cell survival, induction of physiologically active superoxide anions, mitotic gene conversion, mitotic crossing-over, reverse mutations, DNA double-strand breaks, and Ty1 retrotransposition. The role of the intact mitochondria and the YAP1 transcription factor was also evaluated.Our results indicate a genotype-specific response. The first experimental evidence has been provided that bee venom induces physiologically active superoxide anions and DNA double-strand breaks in S. cerevisiae. The lack of oxidative phosphorylation due to disrupted or missing mitochondrial DNA reduces but not diminishes the cytotoxicity of bee venom. The possible modes of action could be considered direct damage to membranes (cytotoxic effect) and indirect damage to DNA through oxidative stress (genotoxic effect). YAP1 transcription factor was not found to be directly involved in cell defense against bee venom treatment.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call