Carbonic anhydrase genes network: Key role players in pH flux and abiotic stress tolerance

The persistent change in climatic conditions increasing the exiting stress conditions for plants resulting the internal fight to overcome stress challenges. Under normal condition CO2 fixed in cells enters either c3 or c4 cycle. Whereas, any imbalance/stress leads to the accumulation of carbonic aci...

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Bibliographic Details
Published in:Journal of AgriSearch
Main Authors: Yasin, Jeshima Khan, Singh, Neha, Bhogal, Inderjeet, Mishra, Bharat Kumar
Format: Article in Journal/Newspaper
Language:English
Published: Society for Upliftment of Rural Economy (SURE) Varanasi 2016
Subjects:
Abiotic stress tolerance
Carbonic anhydrase
Genes network
pH flux
Carbonic acid
Online Access:http://myresearchjournals.com/index.php/JAS/article/view/6700
https://doi.org/10.21921/jas.v3i4.6700
Description
Summary:The persistent change in climatic conditions increasing the exiting stress conditions for plants resulting the internal fight to overcome stress challenges. Under normal condition CO2 fixed in cells enters either c3 or c4 cycle. Whereas, any imbalance/stress leads to the accumulation of carbonic acid and hydrogen peroxide; even, at extreme condition cyanide accumulation leads to cell death. Identification of interacting molecules by network analyses will help in translational research and network rewiring in developing adaptations to abiotic stress conditions. In this report, we tried to elucidate the existing carbonic anhydrase network of Glycine max and its relationship with abiotic stress condition.

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