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Harnessing evolutionary toxins for signaling: Reactive oxygen species, nitric oxide and hydrogen sulfide in plant cell regulation
Authors
Alvarez
Arias-Salvatierra
+72 more
Bartosz
Blokhina
Bouillaud
Brandes
Britto
Calderwood
Cheeseman
Clarke
Davidson
De Kok
Dooley
Dorman
Dowling
Eng
García-Mata
Gross
Halliwell
Hancock
Hancock
Hancock
Hancock
Hu
Hu
Itoh
Jayakumar
Jeandroz
Jena
Kelley
Klotz
Kovtun
Lane
Li
Li
Lindermayr
Lisjak
Liu
Ludwig
Lyons
Martin
Mata-Pérez
Metcalfe
Miller
Misra
Mittler
Morgan
Mur
Murata
Norenberg
Olson
Osuna
Palmer
Paquay
Parkes
Petrov
Pimentel
Rockel
Romero
Schafer
Schjoerring
Sen
Shan
Skiba
Szinicz
Tobler
Wallace
Wang
Whiteman
Youssefian
Zhang
Zhang
Zhang
Zhu
Publication date
10 February 2017
Publisher
'Frontiers Media SA'
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PubMed
Abstract
© 2017 Hancock. During the early periods of evolution, as well as in niche environments today, organisms have had to learn to tolerate the presence of many reactive compounds, such as reactive oxygen species, nitric oxide, and hydrogen sulfide. It is now known that such compounds are instrumental in the signaling processes in plant cells. There are enzymes which can make them, while downstream of their signaling pathways are coming to light. These include the production of cGMP, the activation of MAP kinases and transcription factors, and the modification of thiol groups on many proteins. However, organisms have also had to tolerate other reactive compounds such as ammonia, methane, and hydrogen gas, and these too are being found to have profound effects on signaling in cells. Before a holistic view of how such signaling works, the full effects and interactions of all such reactive compounds needs to be embraced. A full understanding will be beneficial to both agriculture and future therapeutic strategies
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Last time updated on 01/04/2019