Salman Ahmad scite author profile

Soil salinity is the major abiotic stress that disrupts nutrient uptake, hinders plant growth, and threatens agricultural production. Plant growth-promoting rhizobacteria (PGPR) are the most promising eco-friendly beneficial microorganisms that can be used to improve plant responses against biotic and abiotic stresses. In this study, a previously identified B. thuringiensis PM25 showed tolerance to salinity stress up to 3 M NaCl. The Halo-tolerant Bacillus thuringiensis PM25 demonstrated distinct salinity tolerance and enhance plant growth-promoting activities under salinity stress. Antibiotic-resistant Iturin C (ItuC) and bio-surfactant-producing (sfp and srfAA) genes that confer biotic and abiotic stresses were also amplified in B. thuringiensis PM25. Under salinity stress, the physiological and molecular processes were followed by the over-expression of stress-related genes (APX and SOD) in B. thuringiensis PM25. The results detected that B. thuringiensis PM25 inoculation substantially improved phenotypic traits, chlorophyll content, radical scavenging capability, and relative water content under salinity stress. Under salinity stress, the inoculation of B. thuringiensis PM25 significantly increased antioxidant enzyme levels in inoculated maize as compared to uninoculated plants. In addition, B. thuringiensis PM25-inoculation dramatically increased soluble sugars, proteins, total phenols, and flavonoids in maize as compared to uninoculated plants. The inoculation of B. thuringiensis PM25 significantly reduced oxidative burst in inoculated maize under salinity stress, compared to uninoculated plants. Furthermore, B. thuringiensis PM25-inoculated plants had higher levels of compatible solutes than uninoculated controls. The current results demonstrated that B. thuringiensis PM25 plays an important role in reducing salinity stress by influencing antioxidant defense systems and abiotic stress-related genes. These findings also suggest that multi-stress tolerant B. thuringiensis PM25 could enhance plant growth by mitigating salt stress, which might be used as an innovative tool for enhancing plant yield and productivity.

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Insecticides: Impact on the Environment and Human Health

Ansari

Moraiet

Ahmad

2013

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Daily Multidisciplinary Rounds To Implement the Ventilator Bundle Decreases Ventilator-Associated Pneumonia in Trauma Patients: But Does It Affect Outcome?

Stone

Snetman

Neill

et al. 2011

Surgical Infections

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Daily multidisciplinary GRs focused on the VAPB can decrease the incidence of VAP significantly in trauma patients. Ventilator-associated pneumonia correlated with extended mean ventilator, SICU, and hospital days. Interestingly, despite a significant decrease in VAP, a decrease in the mortality rate was not observed. Given the small number of deaths in the VAP cohort, this study has insufficient statistical power to elucidate the true impact of GR intervention or VAP on the mortality rate in trauma patients.

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Entropy generation in Darcy-Forchheimer bidirectional flow of water-based carbon nanotubes with convective boundary conditions

Hayat

Khan

et al. 2018

Journal of Molecular Liquids

129

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Toxic effects of neem based insecticides on the fitness of Helicoverpa armigera (Hübner)

2015

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Salman Ahmad

Bacillus thuringiensis PM25 ameliorates oxidative damage of salinity stress in maize via regulating growth, leaf pigments, antioxidant defense system, and stress responsive gene expression

Insecticides: Impact on the Environment and Human Health

Daily Multidisciplinary Rounds To Implement the Ventilator Bundle Decreases Ventilator-Associated Pneumonia in Trauma Patients: But Does It Affect Outcome?

Entropy generation in Darcy-Forchheimer bidirectional flow of water-based carbon nanotubes with convective boundary conditions

Toxic effects of neem based insecticides on the fitness of Helicoverpa armigera (Hübner)

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