Improving Plant Performance Through Microbiome Manipulation: The Potential Role of Current Bioengineering Approaches DOI Creative Commons

D. P. Joshi,

Amit Kaushik, Reetesh Kumar

et al.

Bacteria, Journal Year: 2025, Volume and Issue: 4(1), P. 12 - 12

Published: March 3, 2025

In the recent past, microbiome manipulation has emerged as a promising approach to improve plant growth performance by exploring deep insight of plant–microbe interactions. The exploration either present on an ectosphere or endosphere can provide far better understanding about potential application plant-associated microbes for improvement growth, protection from pathogen invasion, and tolerance environmental stresses diverse nature. this context, next-generation sequencing methods, omics approaches, synthetic biology have made significant progress in research are being frequently used explore intriguing role microorganisms. Despite successfulness conventional incorporation CRISPR/Cas9, RNA interference technology, rhizosphere engineering, other techniques appear be enhancing performance, against biotic abiotic stress factors. review presents significance microbe interaction, vital functional aspects, collaborative action, constraints, finally latest developments bioengineering approaches destined modulation with objective host challenged stressors.

Language: Английский

Improving Plant Performance Through Microbiome Manipulation: The Potential Role of Current Bioengineering Approaches DOI Creative Commons

D. P. Joshi,

Amit Kaushik, Reetesh Kumar

et al.

Bacteria, Journal Year: 2025, Volume and Issue: 4(1), P. 12 - 12

Published: March 3, 2025

In the recent past, microbiome manipulation has emerged as a promising approach to improve plant growth performance by exploring deep insight of plant–microbe interactions. The exploration either present on an ectosphere or endosphere can provide far better understanding about potential application plant-associated microbes for improvement growth, protection from pathogen invasion, and tolerance environmental stresses diverse nature. this context, next-generation sequencing methods, omics approaches, synthetic biology have made significant progress in research are being frequently used explore intriguing role microorganisms. Despite successfulness conventional incorporation CRISPR/Cas9, RNA interference technology, rhizosphere engineering, other techniques appear be enhancing performance, against biotic abiotic stress factors. review presents significance microbe interaction, vital functional aspects, collaborative action, constraints, finally latest developments bioengineering approaches destined modulation with objective host challenged stressors.

Language: Английский

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