Abscisic acid flux alterations result in differential abscisic acid signaling responses and impact assimilation efficiency in barley under terminal drought stress.

Seiler, Christiane; Harshavardhan, Vokkaliga T; Reddy, Palakolanu S; Hensel, Götz; Kumlehn, Jochen; Eschen-Lippold, Lennart; Rajesh, Kalladan; Korzun, Viktor; Wobus, Ulrich; Lee, Justin; Selvaraj, Gopalan; Sreenivasulu, Nese

Seiler, Christiane; Harshavardhan, Vokkaliga T; Reddy, Palakolanu S; Hensel, Götz; Kumlehn, Jochen; Eschen-Lippold, Lennart; Rajesh, Kalladan; Korzun, Viktor; Wobus, Ulrich; Lee, Justin; Selvaraj, Gopalan; Sreenivasulu, Nese.

Affiliation

Seiler C; Leibniz Institute of Plant Genetics and Crop Plant Research, D-06466 Gatersleben, Germany.

Plant Physiol ; 164(4): 1677-96, 2014 Apr.

Article in En | MEDLINE | ID: mdl-24610749

Subject(s)

Abscisic Acid/metabolism; Droughts; Hordeum/physiology; Signal Transduction; Stress, Physiological; Amino Acid Sequence; Biosynthetic Pathways/genetics; Fluorescence; Gene Expression Regulation, Plant; Genes, Plant; Genetic Engineering; Genotype; Hordeum/genetics; Membrane Proteins/metabolism; Models, Molecular; Molecular Sequence Data; Phenotype; Photosynthesis/genetics; Phylogeny; Plant Proteins/chemistry; Plant Proteins/genetics; Plant Proteins/metabolism; Plants, Genetically Modified; Protein Binding; Signal Transduction/genetics; Stress, Physiological/genetics; Water/metabolism

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Stress, Physiological / Hordeum / Signal Transduction / Abscisic Acid / Droughts Type of study: Prognostic_studies Language: En Journal: Plant Physiol Year: 2014 Type: Article Affiliation country: Germany

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