Journal ArticleDOI
Plant growth-promoting bacteria Bacillus amyloliquefaciens NBRISN13 modulates gene expression profile of leaf and rhizosphere community in rice during salt stress.
Chandra Shekhar Nautiyal,Suchi Srivastava,Puneet Singh Chauhan,Karishma Seem,Aradhana Mishra,Sudhir K. Sopory +5 more
TLDR
The observations imply that SN13 confers salt tolerance in rice by modulating differential transcription in a set of at least 14 genes, which implies that osmoprotectant utilizing microbial population as a mechanism of inducing saltolerance in rice is reported for the first time.About:
This article is published in Plant Physiology and Biochemistry.The article was published on 2013-05-01. It has received 298 citations till now. The article focuses on the topics: Rhizosphere & Soil salinity.read more
Citations
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Bacillus species as versatile weapons for plant pathogens: a review
Jamil Shafi,Hui Tian,Mingshan Ji +2 more
TL;DR: The aim of this article is to present the biocontrol potential of Bacillus species in relation with their antagonizing attributes against plant pathogens, including production of lipopeptides, antibiotics and enzymes as well as plant growth promotion and systemic induced resistance.
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Does plant-Microbe interaction confer stress tolerance in plants: A review?
Akhilesh Kumar,Jay Prakash Verma +1 more
TL;DR: This review has attempted to explore about abiotic and biotic stress tolerant beneficial microorganisms and their modes of action to enhance the sustainable agricultural production.
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Bacillus: A Biological Tool for Crop Improvement through Bio-Molecular Changes in Adverse Environments.
TL;DR: Abiotic and biotic stress factors that have detrimental effects on crops are mitigated by Bacillus-induced physiological changes, including the regulation of water transport, nutrient up-take and the activation of the antioxidant and defense systems.
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Plant Growth Promoting Rhizobacteria in Amelioration of Salinity Stress: A Systems Biology Perspective.
TL;DR: This review intends to elucidate the understanding of salinity tolerance mechanisms attributed by plant growth promoting rhizobacteria (PGPR) and application of PGPR inoculants is a promising measure to combat salinity in agricultural fields, thereby increasing global food production.
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Pseudomonas Putida Attunes Morphophysiological, Biochemical and Molecular Responses in Cicer Arietinum L. During Drought Stress and Recovery
TL;DR: Analysis of plant growth promotion and stress alleviation in one month old desi and kabuli chickpea subjected to drought stress for 0, 1, 3 and 7 days and recovery in the presence of a PGPR implies that RA confers drought tolerance in chickpeas by altering various physical, physiological and biochemical parameters.
References
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A revised medium for rapid growth and bio assays with tobacco tissue cultures
Toshio Murashige,Folke Skoog +1 more
TL;DR: In vivo redox biosensing resolves the spatiotemporal dynamics of compartmental responses to local ROS generation and provide a basis for understanding how compartment-specific redox dynamics may operate in retrograde signaling and stress 67 acclimation in plants.
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The enhancement of plant growth by free-living bacteria
TL;DR: The ways in which plant growth promoting rhizobacteria facilitate the growth of plants are considered and discussed and the possibility of improving plant growth promotion by specific genetic manipulation is critically examined.
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Salt Tolerance Conferred by Overexpression of a Vacuolar Na+/H+ Antiport in Arabidopsis
TL;DR: Overexpression of a vacuolar Na+/H+ antiport fromArabidopsis thaliana in Arabidopsis plants promotes sustained growth and development in soil watered with up to 200 millimolar sodium chloride, demonstrating the feasibility of engineering salt tolerance in plants.
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Rhizosphere bacteria help plants tolerate abiotic stress
TL;DR: PGPR might also increase nutrient uptake from soils, thus reducing the need for fertilizers and preventing the accumulation of nitrates and phosphates in agricultural soils, and reduce the effects of water contamination from fertilizer run-off and lead to savings for farmers.
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The Arabidopsis thaliana salt tolerance gene SOS1 encodes a putative Na+/H+ antiporter.
TL;DR: In this article, the SOS1 (Salt Overly Sensitive 1) locus is cloned and predicted to encode a 127-kDa protein with 12 transmembrane domains in the N-terminal part and a long hydrophilic cytoplasmic tail.