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W2214526021 endingPage "174" @default.
W2214526021 startingPage "158" @default.
W2214526021 abstract "Ethylene participates in the regulation of numerous cellular events and biological processes, including water loss, during leaf and flower petal wilting. The diverse ethylene responses may be regulated via dynamic interplays between protein phosphorylation/dephosphorylation and ubiquitin/26S proteasome-mediated protein degradation and protease cleavage. To address how ethylene alters protein phosphorylation through multi-furcated signaling pathways, we performed a (15)N stable isotope labelling-based, differential, and quantitative phosphoproteomics study on air- and ethylene-treated ethylene-insensitive Arabidopsis double loss-of-function mutant ein3-1/eil1-1. Among 535 non-redundant phosphopeptides identified, two and four phosphopeptides were up- and downregulated by ethylene, respectively. Ethylene-regulated phosphorylation of aquaporin PIP2;1 is positively correlated with the water flux rate and water loss in leaf. Genetic studies in combination with quantitative proteomics, immunoblot analysis, protoplast swelling/shrinking experiments, and leaf water loss assays on the transgenic plants expressing both the wild-type and S280A/S283A-mutated PIP2;1 in the both Col-0 and ein3eil1 genetic backgrounds suggest that ethylene increases water transport rate in Arabidopsis cells by enhancing S280/S283 phosphorylation at the C terminus of PIP2;1. Unknown kinase and/or phosphatase activities may participate in the initial up-regulation independent of the cellular functions of EIN3/EIL1. This finding contributes to our understanding of ethylene-regulated leaf wilting that is commonly observed during post-harvest storage of plant organs." @default.
W2214526021 created "2016-06-24" @default.
W2214526021 creator A5005812466 @default.
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W2214526021 creator A5031810848 @default.
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W2214526021 creator A5067114545 @default.
W2214526021 creator A5075729175 @default.
W2214526021 creator A5086517911 @default.
W2214526021 date "2016-01-01" @default.
W2214526021 modified "2023-10-10" @default.
W2214526021 title "Quantitative and Functional Phosphoproteomic Analysis Reveals that Ethylene Regulates Water Transport via the C-Terminal Phosphorylation of Aquaporin PIP2;1 in Arabidopsis" @default.
W2214526021 cites W1669793801 @default.
W2214526021 cites W1947778485 @default.
W2214526021 cites W1967560273 @default.
W2214526021 cites W1968116139 @default.
W2214526021 cites W1976001215 @default.
W2214526021 cites W1976265027 @default.
W2214526021 cites W1981153918 @default.
W2214526021 cites W1982655258 @default.
W2214526021 cites W1984365278 @default.
W2214526021 cites W1992192125 @default.
W2214526021 cites W1995268800 @default.
W2214526021 cites W1996152690 @default.
W2214526021 cites W1996834207 @default.
W2214526021 cites W1997956266 @default.
W2214526021 cites W2004194015 @default.
W2214526021 cites W2004434318 @default.
W2214526021 cites W2006419756 @default.
W2214526021 cites W2008463825 @default.
W2214526021 cites W2012356760 @default.
W2214526021 cites W2013767143 @default.
W2214526021 cites W2014953181 @default.
W2214526021 cites W2015065370 @default.
W2214526021 cites W2018346406 @default.
W2214526021 cites W2018641191 @default.
W2214526021 cites W2023127991 @default.
W2214526021 cites W2024271177 @default.
W2214526021 cites W2025839200 @default.
W2214526021 cites W2030216833 @default.
W2214526021 cites W2033584367 @default.
W2214526021 cites W2038477741 @default.
W2214526021 cites W2049792186 @default.
W2214526021 cites W2049904460 @default.
W2214526021 cites W2050870150 @default.
W2214526021 cites W2051031541 @default.
W2214526021 cites W2060868526 @default.
W2214526021 cites W2064714798 @default.
W2214526021 cites W2071977502 @default.
W2214526021 cites W2079440628 @default.
W2214526021 cites W2080805933 @default.
W2214526021 cites W2082311696 @default.
W2214526021 cites W2084304818 @default.
W2214526021 cites W2085512599 @default.
W2214526021 cites W2086747277 @default.
W2214526021 cites W2089903119 @default.
W2214526021 cites W2090082061 @default.
W2214526021 cites W2093255871 @default.
W2214526021 cites W2093469183 @default.
W2214526021 cites W2094831677 @default.
W2214526021 cites W2094909470 @default.
W2214526021 cites W2097808091 @default.
W2214526021 cites W2105170506 @default.
W2214526021 cites W2105525923 @default.
W2214526021 cites W2105913048 @default.
W2214526021 cites W2108968693 @default.
W2214526021 cites W2115834966 @default.
W2214526021 cites W2117196831 @default.
W2214526021 cites W2122210253 @default.
W2214526021 cites W2124482320 @default.
W2214526021 cites W2128268951 @default.
W2214526021 cites W2131727652 @default.
W2214526021 cites W2133564336 @default.
W2214526021 cites W2135080621 @default.
W2214526021 cites W2135936015 @default.
W2214526021 cites W2140346055 @default.
W2214526021 cites W2140946052 @default.
W2214526021 cites W2147285991 @default.
W2214526021 cites W2148444285 @default.
W2214526021 cites W2149104046 @default.
W2214526021 cites W2151423383 @default.
W2214526021 cites W2158293926 @default.
W2214526021 cites W2162319228 @default.
W2214526021 cites W2165047972 @default.
W2214526021 cites W2167487305 @default.
W2214526021 cites W2168906895 @default.
W2214526021 cites W2170790217 @default.
W2214526021 doi "https://doi.org/10.1016/j.molp.2015.10.001" @default.
W2214526021 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26476206" @default.
W2214526021 hasPublicationYear "2016" @default.
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