AtMYB20 is negatively involved in plant adaptive response to drought stress

Background and aims MYB transcription factors play critical roles in plant development and stress responses. Our objective was to characterize a role of AtMYB20 (AT1G66230) in regulating the ABA-dependent adaptive response to desiccation stress in Arabidopsis. Methods Sequencing analysis revealed th...

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Bibliographic Details
Published in:Plant and soil 2014-03, Vol.376 (1/2), p.433-443
Main Authors: Gao, Shuai, Zhang, Yong Li, Yang, Lu, Song, Jian Bo, Yang, Zhi Min
Format: Article
Language:English
Subjects:
Acids
Agronomy. Soil science and plant productions
Animal, plant and microbial ecology
Arabidopsis
Arabidopsis thaliana
Biological and medical sciences
Biomedical and Life Sciences
Botanical research
China
Desiccation
DNA sequencing
Drought
Droughts
Ecology
Flowers & plants
Fundamental and applied biological sciences. Psychology
Gene expression regulation
General agronomy. Plant production
Genes
Genetic aspects
Genetic research
Health aspects
Leaves
Life Sciences
Mutants
Mutation
Nucleotide sequencing
Plant Physiology
Plant response
Plant Sciences
Plants
Regular Article
Salts
Seedlings
Sodium chloride
Soil Science & Conservation
Soil-plant relationships. Soil fertility
Soil-plant relationships. Soil fertility. Fertilization. Amendments
Stress (Physiology)
Stress analysis
Transcription factors
Water loss
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Summary:Background and aims MYB transcription factors play critical roles in plant development and stress responses. Our objective was to characterize a role of AtMYB20 (AT1G66230) in regulating the ABA-dependent adaptive response to desiccation stress in Arabidopsis. Methods Sequencing analysis revealed that there is a site located on the AtMYB20 transcript which is potentially base-paired by miR858. To avoid the possible cleavage, a vector with a miR858-resistant version of AtMYB20 under the CaMV 35S promoter (35S:m5AtMYB20) was constructed. The AtMYB20 knock-out mutant myb20 was applied to identifying AtMYB20 functions. Results While AtMYB20 was induced by high levels of NaCl, its expression was suppressed by desiccation and cold stresses and abscisic acid (ABA) treatment. Compared with wild-type, AtMYB20 over-expression (35S:m5AtMYB20) seedlings were susceptible to desiccation, whereas MYB20 loss of function mutant myb20 plants displayed resistance to desiccation stress. 35S:m5AtMYB20 plants were less sensitive to ABA, but myb20 mutants were hypersensitive to ABA. This could be validated by the experiment in which treatment with 10 µM ABA for 2 h resulted in constant stomatal opening on leaves of 35S:m5AtMYB20 plants but stomatal closure on myb20 mutant plants. Expression of ABA-and drought stress-responsive marker genes (e.g. ABI3-5 and ABF3-4) was up-regulated in myb20 plants but down-regulated in 35S: m5AtMYB20 plants. Conclusions AtMYB20 acts as a negative regulator of plant response to desiccation stress in an ABA-dependent manner.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-013-1992-6