Enhanced Drought and Salt Stress Tolerance in Arabidopsis by Flavobacterium crocinum HYN0056T

Plant growth-promoting bacteria (PGPB) are indigenous to the plant rhizosphere and largely affect many events occurring during the plant life cycle, through either a direct or an indirect mechanism such as regulation of hormonal balance, facilitation of nutrients uptake and improvement of stress tol...

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Published in:Journal of plant biology = Singmul Hakhoe chi 2020, 63(1), , pp.63-71
Main Authors: Kim, Jeong-eun, Woo, Og-Geum, Bae, Yoowon, Keum, Hye Lim, Chung, Sunglan, Sul, Woo Jun, Lee, Jae-Hoon
Format: Article
Language:English
Subjects:
Abiotic stress
Abscisic acid
Agricultural land
Arabidopsis
Bacteria
Biological control
Biomedical and Life Sciences
Crop production
Drought
Flavobacterium
Genes
Heavy metals
Indigenous plants
Life cycles
Life Sciences
Nutrient uptake
Nutrients
Plant Breeding/Biotechnology
Plant Ecology
Plant Genetics and Genomics
Plant growth
Plant Sciences
Plant Systematics/Taxonomy/Biogeography
Productivity
Research Article
Rhizosphere
Salinity tolerance
Salts
Stomata
Stress
Up-regulation
Yeast
생물학
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Summary:Plant growth-promoting bacteria (PGPB) are indigenous to the plant rhizosphere and largely affect many events occurring during the plant life cycle, through either a direct or an indirect mechanism such as regulation of hormonal balance, facilitation of nutrients uptake and improvement of stress tolerance. Since drought stress, a representative abiotic stress, is one of the main reasons limiting plant growth, the identification of useful PGPB involved in drought stressresistance in plants and its application into the agricultural field could be utilized as a strategy to facilitate crop productivity. To obtain a useful PGPB that is involved in drought stress resistance, we checked the expression patterns of drought-inducible marker genes such as RD29A and RAB18 in Arabidopsis after application of 16 Flavobateria obtained from various environmental sources. After screening, a PGPB known as Flavobacterium crocinum HYN0056 T , which contributes to more than twofold upregulation of drought-inducible marker genes, was finally selected for this study. Application of HYN0056 T enhanced the tolerance against both drought stress, possibly via induction of stomatal closure, the highly related salt stress, in the presence of HYN0056 T . Moreover, treatment of HYN0056 T under drought and salt stresses resulted in enhanced upregulation of various drought- and salt-inducible genes in Arabidopsis . HYN0056 T was responsible for the development of lateral roots under nonstress condition, implying that it may be involved in effective uptake of water/inorganic nutrients. Based on these results, we suggest that this bacterium could be used as a useful biocontrol agent to improve plant productivity, especially under drought/salt stress conditions.
ISSN:1226-9239
1867-0725
DOI:10.1007/s12374-020-09236-8