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Bacterial ACC deaminase: Insights into enzymology, biochemistry, genetics, and potential role in amelioration of environmental stress in crop plants

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Title Bacterial ACC deaminase: Insights into enzymology, biochemistry, genetics, and potential role in amelioration of environmental stress in crop plants
Not Available
 
Creator Mohammad Shahid1 *† , Udai B. Singh1 *† , Mohammad Saghir Khan2 , Prakash Singh3 *, Ratan Kumar4 , Raj Narian Singh5 , Arun Kumar6 and Harsh V. Singh1
 
Subject environnemental stress, ethylene, plants, PGPR, ACC deaminase, mode of action
 
Description Not Available
Growth and productivity of crop plants worldwide are often adversely affected by
anthropogenic and natural stresses. Both biotic and abiotic stresses may impact
future food security and sustainability; global climate change will only exacerbate
the threat. Nearly all stresses induce ethylene production in plants, which is
detrimental to their growth and survival when present at higher concentrations.
Consequently, management of ethylene production in plants is becoming an
attractive option for countering the stress hormone and its effect on crop yield
and productivity. In plants, ACC (1-aminocyclopropane-1-carboxylate) serves as
a precursor for ethylene production. Soil microorganisms and root-associated
plant growth promoting rhizobacteria (PGPR) that possess ACC deaminase activity
regulate growth and development of plants under harsh environmental conditions
by limiting ethylene levels in plants; this enzyme is, therefore, often designated
as a “stress modulator.” TheACC deaminase enzyme, encoded by the AcdS gene,
is tightly controlled and regulated depending upon environmental conditions.
Gene regulatory components of AcdS are made up of the LRP protein-coding
regulatory gene and other regulatory components that are activated via distinct
mechanisms under aerobic and anaerobic conditions. ACC deaminase-positive
PGPR strains can intensively promote growth and development of crops being
cultivated under abiotic stresses including salt stress, water deficit, waterlogging,
temperature extremes, and presence of heavy metals, pesticides and other
organic contaminants. Strategies for combating environmental stresses in plants,
and improving growth by introducing the acdS gene into crop plants via bacteria,
have been investigated. In the recent past, some rapid methods and cutting-edge
technologies based on molecular biotechnology and omics approaches involving
proteomics, transcriptomics, metagenomics, and next generation sequencing
(NGS) have been proposed to reveal the variety and potential of ACC deaminase producing PGPR that thrive under external stresses. Multiple stress-tolerant
ACC deaminase-producing PGPR strains have demonstrated great promise in
providing plant resistance/tolerance to various stressors and, therefore, it could
be advantageous over other soil/plant microbiome that can flourish under
stressed environments.
Not Available
 
Date 2024-06-24T16:13:10Z
2024-06-24T16:13:10Z
2023-01-01
 
Type Research Paper
 
Identifier Not Available
Not Available
http://krishi.icar.gov.in/jspui/handle/123456789/83742
 
Language English
 
Relation Not Available;
 
Publisher Not Available