HIGHLIGHTS
- who: Sophie Quintin et al. from the Strasbourg, Illkirch, France Editor: AKikis, University of the South: have published the research work: Distinct mechanisms underlie H2O2 sensing in C. elegans head and tail, in the Journal: PLOS ONE of March/24,/2022
- what: The work demonstrates that can sense a broad range of oxidative stressors using partially distinct H2O2 signaling pathways in and tail sensillae and paves the way for further understanding of how the integration of these inputs translates into the appropriate behavior. Using a microfluidic-based approach and real-time calcium imaging, the authors . . .
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