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Microbial methylglyoxal metabolism contributes towards growth promotion and stress tolerance in plants.

Charanpreet KaurMayank GuptaSampurna GaraiShashank K MishraPuneet Singh ChauhanSudhir SoporySneh L Singla-PareekNidhi AdlakhaAshwani Pareek
Published in: Environmental microbiology (2021)
Plant growth promotion by microbes is a cumulative phenomenon involving multiple traits, many of which are not explored yet. Hence, to unravel microbial mechanisms underlying growth promotion, we have analysed the genomes of two potential growth-promoting microbes, viz., Pseudomonas sp. CK-NBRI-02 (P2) and Bacillus marisflavi CK-NBRI-03 (P3) for the presence of plant-beneficial traits. Besides known traits, we found that microbes differ in their ability to metabolize methylglyoxal (MG), a ubiquitous cytotoxin regarded as general consequence of stress in plants. P2 exhibited greater tolerance to MG and possessed better ability to sustain plant growth under dicarbonyl stress. However, under salinity, only P3 showed a dose-dependent induction in MG detoxification activity in accordance with concomitant increase in MG levels, contributing to enhanced salt tolerance. Furthermore, salt-stressed transcriptomes of both the strains showed differences with respect to MG, ion and osmolyte homeostasis, with P3 being more responsive to stress. Importantly, application of either strain altered MG levels and subsequently MG detoxification machinery in Arabidopsis, probably to strengthen plant defence response and growth. We therefore, suggest a crucial role of microbial MG resistance in plant growth promotion and that it should be considered as a beneficial trait while screening microbes for stress mitigation in plants.
Keyphrases
  • plant growth
  • microbial community
  • genome wide
  • stress induced
  • escherichia coli
  • protein kinase
  • pseudomonas aeruginosa
  • drug delivery
  • cancer therapy
  • cell wall
  • candida albicans