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Yachana Jha

Researcher at Sardar Patel University

Publications -  26
Citations -  820

Yachana Jha is an academic researcher from Sardar Patel University. The author has contributed to research in topics: Rhizobacteria & Biology. The author has an hindex of 12, co-authored 18 publications receiving 608 citations.

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Journal ArticleDOI

Combination of endophytic and rhizospheric plant growth promoting rhizobacteria in Oryza sativa shows higher accumulation of osmoprotectant against saline stress

TL;DR: It is shown that inoculation of paddy rice (Oryza sativa L.) with a mixture of endophytic and rhizospheric bacteria could serve as a useful tool for alleviating salinity stress.
Journal ArticleDOI

PGPR regulate caspase-like activity, programmed cell death, and antioxidant enzyme activity in paddy under salinity

TL;DR: This study shows that inoculation of paddy with such bacteria could provide salt-tolerant ability by reducing the toxicity of reactive oxygen species by reducing plant cell membrane index, cell caspase-like protease activity, and programmed cell death and hence resulted in increase cell viability.
Journal ArticleDOI

Paddy plants inoculated with PGPR show better growth physiology and nutrient content under saline condition

TL;DR: Results suggested that inoculation with PGPR Bacillus pumilus and Pseudomonas pseudoalcaligenes in salt-stressed plants could help to alleviate salt stress in the paddy.
Book ChapterDOI

Regulation of Plant Physiology and Antioxidant Enzymes for Alleviating Salinity Stress by Potassium-Mobilizing Bacteria

TL;DR: Inoculation of KSM is found to be promising to induce growth of plants under 2.3–3.5 dSm−1 salinity levels and low availability of P and K, protecting the plants from salinity injury by enhancing their growth-related physiology and lipid peroxidation.
Journal ArticleDOI

Bacterial‐induced expression of RAB18 protein in Orzya sativa salinity stress and insights into molecular interaction with GTP ligand

TL;DR: The mode of action of this stress‐related protein is demonstrated by performing comparative modeling of Q10RT8 and docking results indicated that Ser21, Ala22, Lys25, Asp68, Ala70, Glu73, and Arg74 are important determinant residues for functional interaction with the GTP ligand.