Titlebook: Antioxidants in Plant-Microbe Interaction; Harikesh Bahadur Singh,Anukool Vaishnav,R.Z. Sayye Book 2021 The Editor(s) (if applicable) and

Geyser

Historical Review and State-of-the art,ng effects on the environment..Keeping the facts mentioned above in mind, researchers have turned their attention to nature and any alternatives it may provide. Plant Growth-Promoting Microbes (PGPMs) are an interesting class of organisms that could prove useful in enhancing rate of production of cr

鎮(zhèn)痛劑

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EXPEL

Antioxidants in Plant–Microbe Interaction of various microorganisms. Pathogenic microorganisms effect plant negatively and promote production of ROS which creates toxicity. Plants, naturally, have answer to neutralize the ROS-generated toxicity through their inherent defense system but sometimes plants have to rely on some outer sources to

Feigned

Plant-Microbe Symbiosis led synthesis of Bioactive Compoundsmore, exploration and characterization of bacterial endophytes from diverse environment conditions producing novel bioactive compounds, have promising applications in medicine, agriculture, and veterinary sciences, enabling us to counter health challenges in ecofriendly manner.

Gerontology

Association of Nonenzymatic Antioxidants in Plant Holobionth. Antioxidant is small organic molecules which has enzymatic activity. Antioxidants are complex system of overlapping activities and work synergistically to increase cellular defense. There is several reactive oxygen species (ROS) worked in unnecessary oxidation mechanism. Different reactive oxygen

MOTTO

arcane

PGPR: The Redeemer of Rice from Abiotic Stresssential one. Advent of multi-omics approach, genetic engineering, plant tissue culture, and seed priming techniques plays a key role in developing a potent PGPR as a sustainable remedy for mitigating abiotic stresses. However, certain pitfalls like establishment of PGPR under field conditions and ec

disciplined

Impact of PGPR on Plant Health and Antioxidant Enzymes Under Water Stress Conditionswater deficiency by influencing the antioxidative enzyme activity and removing the ROS. Their role as bio-inoculants improves the water holding capacity and decreases the effect of water stress in arid areas with low water accessibility. This chapter deals with the usage of PGPR to boost plant water

Watemelon

Rhizospheric Plant–Microbe Interactions Releasing Antioxidants and Phytostimulating Compounds in Polnd bioinformatics approaches to understand plant–microbe associations have been discussed here, which is an emerging research interest in developing next-generation agricultural process aided with rhizosphere bioengineering.