Functional roles of the protein phosphatase 2C, AtAIP1, in abscisic acid signaling and sugar tolerance in Arabidopsis

Chae Woo Lim; Jung Hyun Kim; Woonhee Baek; Beom Seok Kim; Sung Chul Lee

doi:10.1016/j.plantsci.2012.01.013

Functional roles of the protein phosphatase 2C, AtAIP1, in abscisic acid signaling and sugar tolerance in Arabidopsis

Chae Woo Lim, Jung Hyun Kim, Woonhee Baek, Beom Seok Kim, Sung Chul Lee

Department of Biosystems and Biotechnology

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

Biotic signaling molecules including abscisic acid (ABA) serve as an integrator of abiotic stress including high salinity and drought. Recent studies have led to the identification of an ABA signaling pathway from the ABA receptor to stomatal closure in response to abiotic stress. ABA is linked to ABA receptors and protein phosphatase 2C (PP2C) members. In this study, we reconstituted the ABA signaling pathway as a protein-protein interaction between the RCAR type receptor and AIP1, which is one of the group A PP2C member. Several ABA receptors interact with AIP1 in an ABA dependent or independent manner. aip1 null mutant plants exhibited reduced sensitivity to ABA and glucose during the seed germination and seedling stage. Taken together, these results demonstrated that AIP1 is associated with ABA-mediated cell signaling and function as positive regulators of ABA.

Original language	English
Pages (from-to)	83-88
Number of pages	6
Journal	Plant Science
Volume	187
DOIs	https://doi.org/10.1016/j.plantsci.2012.01.013
Publication status	Published - 2012 May

Keywords

ABA receptor
Abiotic stress
Abscisic acid
Protein phosphatase
Protein-protein interaction

ASJC Scopus subject areas

Genetics
Agronomy and Crop Science
Plant Science

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10.1016/j.plantsci.2012.01.013

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title = "Functional roles of the protein phosphatase 2C, AtAIP1, in abscisic acid signaling and sugar tolerance in Arabidopsis",

abstract = "Biotic signaling molecules including abscisic acid (ABA) serve as an integrator of abiotic stress including high salinity and drought. Recent studies have led to the identification of an ABA signaling pathway from the ABA receptor to stomatal closure in response to abiotic stress. ABA is linked to ABA receptors and protein phosphatase 2C (PP2C) members. In this study, we reconstituted the ABA signaling pathway as a protein-protein interaction between the RCAR type receptor and AIP1, which is one of the group A PP2C member. Several ABA receptors interact with AIP1 in an ABA dependent or independent manner. aip1 null mutant plants exhibited reduced sensitivity to ABA and glucose during the seed germination and seedling stage. Taken together, these results demonstrated that AIP1 is associated with ABA-mediated cell signaling and function as positive regulators of ABA.",

keywords = "ABA receptor, Abiotic stress, Abscisic acid, Protein phosphatase, Protein-protein interaction",

author = "Lim, {Chae Woo} and Kim, {Jung Hyun} and Woonhee Baek and Kim, {Beom Seok} and Lee, {Sung Chul}",

note = "Funding Information: This work was supported by a grant from the Next-Generation BioGreen 21 Program (No. PJ0082222), Rural Development Administration and the Research Foundation of Korea (NFR) grant funded by the Korea government (MEST) (No. 2011-0029568 ). ",

year = "2012",

month = may,

doi = "10.1016/j.plantsci.2012.01.013",

language = "English",

volume = "187",

pages = "83--88",

journal = "Plant Science",

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publisher = "Elsevier Ireland Ltd",

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AU - Lim, Chae Woo

AU - Kim, Jung Hyun

AU - Baek, Woonhee

AU - Kim, Beom Seok

AU - Lee, Sung Chul

N1 - Funding Information: This work was supported by a grant from the Next-Generation BioGreen 21 Program (No. PJ0082222), Rural Development Administration and the Research Foundation of Korea (NFR) grant funded by the Korea government (MEST) (No. 2011-0029568 ).

PY - 2012/5

Y1 - 2012/5

N2 - Biotic signaling molecules including abscisic acid (ABA) serve as an integrator of abiotic stress including high salinity and drought. Recent studies have led to the identification of an ABA signaling pathway from the ABA receptor to stomatal closure in response to abiotic stress. ABA is linked to ABA receptors and protein phosphatase 2C (PP2C) members. In this study, we reconstituted the ABA signaling pathway as a protein-protein interaction between the RCAR type receptor and AIP1, which is one of the group A PP2C member. Several ABA receptors interact with AIP1 in an ABA dependent or independent manner. aip1 null mutant plants exhibited reduced sensitivity to ABA and glucose during the seed germination and seedling stage. Taken together, these results demonstrated that AIP1 is associated with ABA-mediated cell signaling and function as positive regulators of ABA.

AB - Biotic signaling molecules including abscisic acid (ABA) serve as an integrator of abiotic stress including high salinity and drought. Recent studies have led to the identification of an ABA signaling pathway from the ABA receptor to stomatal closure in response to abiotic stress. ABA is linked to ABA receptors and protein phosphatase 2C (PP2C) members. In this study, we reconstituted the ABA signaling pathway as a protein-protein interaction between the RCAR type receptor and AIP1, which is one of the group A PP2C member. Several ABA receptors interact with AIP1 in an ABA dependent or independent manner. aip1 null mutant plants exhibited reduced sensitivity to ABA and glucose during the seed germination and seedling stage. Taken together, these results demonstrated that AIP1 is associated with ABA-mediated cell signaling and function as positive regulators of ABA.

KW - ABA receptor

KW - Abiotic stress

KW - Abscisic acid

KW - Protein phosphatase

KW - Protein-protein interaction

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U2 - 10.1016/j.plantsci.2012.01.013

DO - 10.1016/j.plantsci.2012.01.013

M3 - Article

C2 - 22404835

AN - SCOPUS:84862820235

SN - 0168-9452

VL - 187

SP - 83

EP - 88

JO - Plant Science

JF - Plant Science

ER -

Functional roles of the protein phosphatase 2C, AtAIP1, in abscisic acid signaling and sugar tolerance in Arabidopsis

Abstract

Keywords

ASJC Scopus subject areas

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