Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1

Abstract This brief article highlights the results of Fu et al. (Proc Natl Acad Sci USA 119:e2204574119, 2022), who recently found that manganese (Mn) deficiency triggers long-lasting multicellular Ca2+ oscillations in the elongation zone (EZ) of Arabidopsis roots and revealed a Ca2+-CPK21/23-NRAMP1...

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Main Author:	Chao-Feng Huang
Format:	Article
Language:	English
Published:	Springer 2022-10-01
Series:	Stress Biology
Subjects:	Manganese deficiency Ca2+ signaling Ca2+-dependent protein kinase (CPK) NRAMP1 phosphorylation
Online Access:	https://doi.org/10.1007/s44154-022-00067-w

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author	Chao-Feng Huang
author_facet	Chao-Feng Huang
author_sort	Chao-Feng Huang
collection	DOAJ
description	Abstract This brief article highlights the results of Fu et al. (Proc Natl Acad Sci USA 119:e2204574119, 2022), who recently found that manganese (Mn) deficiency triggers long-lasting multicellular Ca2+ oscillations in the elongation zone (EZ) of Arabidopsis roots and revealed a Ca2+-CPK21/23-NRAMP1 axis as an important mechanism for plant tolerance and adaptation to low Mn.
first_indexed	2024-04-12T15:54:57Z
format	Article
id	doaj.art-3fa46361326e442c92ef0799fca6e2e2
institution	Directory Open Access Journal
issn	2731-0450
language	English
last_indexed	2024-04-12T15:54:57Z
publishDate	2022-10-01
publisher	Springer
record_format	Article
series	Stress Biology
spelling	doaj.art-3fa46361326e442c92ef0799fca6e2e22022-12-22T03:26:24ZengSpringerStress Biology2731-04502022-10-01211310.1007/s44154-022-00067-wCa2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1Chao-Feng Huang0National Key Laboratory of Plant Molecular Genetics, Shanghai Center for Plant Stress Biology, CAS Center for Excellence in Molecular Plant Sciences, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of SciencesAbstract This brief article highlights the results of Fu et al. (Proc Natl Acad Sci USA 119:e2204574119, 2022), who recently found that manganese (Mn) deficiency triggers long-lasting multicellular Ca2+ oscillations in the elongation zone (EZ) of Arabidopsis roots and revealed a Ca2+-CPK21/23-NRAMP1 axis as an important mechanism for plant tolerance and adaptation to low Mn.https://doi.org/10.1007/s44154-022-00067-wManganese deficiencyCa2+ signalingCa2+-dependent protein kinase (CPK)NRAMP1 phosphorylation
spellingShingle	Chao-Feng Huang Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1 Stress Biology Manganese deficiency Ca2+ signaling Ca2+-dependent protein kinase (CPK) NRAMP1 phosphorylation
title	Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1
title_full	Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1
title_fullStr	Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1
title_full_unstemmed	Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1
title_short	Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1
title_sort	ca2 signaling in plant manganese uptake cpk21 23 kinases phosphorylate and activate manganese transporter nramp1
topic	Manganese deficiency Ca2+ signaling Ca2+-dependent protein kinase (CPK) NRAMP1 phosphorylation
url	https://doi.org/10.1007/s44154-022-00067-w
work_keys_str_mv	AT chaofenghuang ca2signalinginplantmanganeseuptakecpk2123kinasesphosphorylateandactivatemanganesetransporternramp1

Ca2+ signaling in plant manganese uptake: CPK21/23 kinases phosphorylate and activate manganese transporter NRAMP1

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