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Phytohormone Production by the Endophyte Bacillus safensis TS3 Increases Plant Yield and Alleviates Salt Stress.

Vladimir K ChebotarAlexander N ZaplatkinElena P ChizhevskayaMaria S GanchevaGerben P VosholNatalia V MalfanovaMaria E BaganovaYuriy V KhomyakovVeronika N Pishchik
Published in: Plants (Basel, Switzerland) (2023)
Endophytic bacteria can be used to overcome the effect of salinity stress and promote plant growth and nutrient uptake. Bacillus safensis colonizes a wide range of habitats due to survival in extreme environments and unique physiological characteristics, such as a high tolerance for salt, heavy metals, and ultraviolet and gamma radiations. The aim of our study was to examine the salt resistance of the endophytic strain TS3 B. safensis and its ability to produce phytohormones and verify its effect on plant yield in field trials and the alleviation of salt stress in pot experiments. We demonstrate that the strain TS3 is capable of producing enzymes and phytohormones such as IAA, ABA and tZ. In pot experiments with radish and oat plants in salinization, the strain TS3 contributed to the partial removal of the negative effect of salinization. The compensatory effect of the strain TS3 on radish plants during salinization was 46.7%, and for oats, it was 108%. We suppose that such a pronounced effect on the plants grown and the salt stress is connected with its ability to produce phytohormones. Genome analysis of the strain TS3 showed the presence of the necessary genes for the synthesis of compounds responsible for the alleviation of the salt stress. Strain B. safensis TS3 can be considered a promising candidate for developing biofertilizer to alleviate salt stress and increase plant yield.
Keyphrases
  • plant growth
  • heavy metals
  • stress induced
  • microbial community
  • transcription factor
  • genome wide
  • risk assessment
  • dna methylation
  • heat stress
  • mouse model
  • bacillus subtilis
  • arabidopsis thaliana
  • health risk assessment