Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions

Golldack, Dortje; Li, Chao; Mohan, Harikrishnan; Probst, Nina

Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions

Golldack D, Li C, Mohan H, Probst N (2013)
Plant Cell Reports 32(7): 1007-1016.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1007/s00299-013-1409-2

Autor*in

Golldack, Dortje^UniBi; Li, Chao^UniBi; Mohan, Harikrishnan^UniBi; Probst, Nina^UniBi

Einrichtung

Fakultät für Biologie > Biochemie und Physiologie der Pflanzen

Erscheinungsjahr

2013

Zeitschriftentitel

Plant Cell Reports

Band

32

Ausgabe

7

Seite(n)

1007-1016

ISSN

0721-7714

eISSN

1432-203X

Page URI

https://pub.uni-bielefeld.de/record/2674732

Zitieren

Golldack D, Li C, Mohan H, Probst N. Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions. Plant Cell Reports. 2013;32(7):1007-1016.

Golldack, D., Li, C., Mohan, H., & Probst, N. (2013). Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions. Plant Cell Reports, 32(7), 1007-1016. doi:10.1007/s00299-013-1409-2

Golldack, Dortje, Li, Chao, Mohan, Harikrishnan, and Probst, Nina. 2013. “Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions”. Plant Cell Reports 32 (7): 1007-1016.

Golldack, D., Li, C., Mohan, H., and Probst, N. (2013). Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions. Plant Cell Reports 32, 1007-1016.

Golldack, D., et al., 2013. Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions. Plant Cell Reports, 32(7), p 1007-1016.

D. Golldack, et al., “Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions”, Plant Cell Reports, vol. 32, 2013, pp. 1007-1016.

Golldack, D., Li, C., Mohan, H., Probst, N.: Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions. Plant Cell Reports. 32, 1007-1016 (2013).

Golldack, Dortje, Li, Chao, Mohan, Harikrishnan, and Probst, Nina. “Gibberellins and abscisic acid signal crosstalk: living and developing under unfavorable conditions”. Plant Cell Reports 32.7 (2013): 1007-1016.

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Accumulation of phosphorylated repressor for gibberellin signaling in an F-box mutant.
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Integration of plant responses to environmentally activated phytohormonal signals.
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Significance of the V-type ATPase for the adaptation to stressful growth conditions and its regulation on the molecular and biochemical level.
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Genome-wide analysis of the GRAS gene family in rice and Arabidopsis.
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DELLAs regulate chlorophyll and carotenoid biosynthesis to prevent photooxidative damage during seedling deetiolation in Arabidopsis.
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Cell signaling during cold, drought, and salt stress.
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Floral homeotic genes are targets of gibberellin signaling in flower development.
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Roles of the different components of magnesium chelatase in abscisic acid signal transduction.
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ABA perception and signalling.
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A brand new START: abscisic acid perception and transduction in the guard cell.
Joshi-Saha A, Valon C, Leung J., Sci Signal 4(201), 2011
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The Arabidopsis DELLA RGA-LIKE3 is a direct target of MYC2 and modulates jasmonate signaling responses.
Wild M, Daviere JM, Cheminant S, Regnault T, Baumberger N, Heintz D, Baltz R, Genschik P, Achard P., Plant Cell 24(8), 2012
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GIBBERELLIN INSENSITIVE DWARF1 encodes a soluble receptor for gibberellin.
Ueguchi-Tanaka M, Ashikari M, Nakajima M, Itoh H, Katoh E, Kobayashi M, Chow TY, Hsing YI, Kitano H, Yamaguchi I, Matsuoka M., Nature 437(7059), 2005
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From laboratory to field. Using information from Arabidopsis to engineer salt, cold, and drought tolerance in crops.
Zhang JZ, Creelman RA, Zhu JK., Plant Physiol. 135(2), 2004
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AREB1, AREB2, and ABF3 are master transcription factors that cooperatively regulate ABRE-dependent ABA signaling involved in drought stress tolerance and require ABA for full activation.
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The CBFs: three arabidopsis transcription factors to cold acclimate.
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Interactions of two abscisic-acid induced WRKY genes in repressing gibberellin signaling in aleurone cells.
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Potassium channels in plant cells.
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The Arabidopsis GRAS protein SCL14 interacts with class II TGA transcription factors and is essential for the activation of stress-inducible promoters.
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Arabidopsis RGL1 encodes a negative regulator of gibberellin responses.
Wen CK, Chang C., Plant Cell 14(1), 2002
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Genetic characterization and functional analysis of the GID1 gibberellin receptors in Arabidopsis.
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Drought, ozone, ABA and ethylene: new insights from cell to plant to community.
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Rice early flowering1, a CKI, phosphorylates DELLA protein SLR1 to negatively regulate gibberellin signalling.
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Abscisic acid: emergence of a core signaling network.
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Mechanisms of high salinity tolerance in plants.
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A subset of cytokinin two-component signaling system plays a role in cold temperature stress response in Arabidopsis.
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