Quantitative imaging of endogenous and exogenous H2O2 gradients in live Zebrafish larvae

Jelcic, M.; Enyedi, B. [Enyedi, Balázs (élettan, molekulá...), author] Department of Physiology (SU / FM / I); MTA-SE Lendület Tissue Damage Research Group (SU / FM / I / DP); Niethammer, P. ✉

English Chapter (Chapter in Book) Scientific

Published: Knaus Ulla G.. NADPH Oxidases. (2019) ISBN:9781493994236; 9781493994243 pp. 283-299

Identifiers

MTMT: 30751682
DOI: 10.1007/978-1-4939-9424-3_17
WoS: 000487828500018
Scopus: 85067016654

Quantitative aspects of extracellular H2O2 signaling in animals, such as its spatiotemporal dynamics within tissues, remain little understood. Here we detail an optimized, experimental setup for measuring the dynamics and physiological consequences of extracellular H2O2 application to live tissues by intravital biosensor imaging in zebrafish larvae. © Springer Science+Business Media, LLC, part of Springer Nature 2019.

Cited in (1)

Citing (6)

Citation styles: IEEE ACM APA Chicago Harvard CSLCopyPrint

Quantitative imaging of endogenous and exogenous H2O2 gradients in live Zebrafish larvae

Jelcic, M.; Enyedi, B. [Enyedi, Balázs (élettan, molekulá...), author] Department of Physiology (SU / FM / I); MTA-SE Lendület Tissue Damage Research Group (SU / FM / I / DP); Niethammer, P. ✉

Export list as bibliography