Streptomyces rocheiSM3 Induces Stress Tolerance in Chickpea Against Sclerotinia sclerotiorum and NaCl

Understanding on actinomycetes-mediated stress tolerance in plants is very limited. This study demonstrated for the first time some stress tolerance mechanisms in chickpea via mediation of an actinomycetes strain Streptomyces rocheiSM3. Here, we used the strain SM3 for treating chickpea seeds and pl...

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Bibliographic Details
Published in:Journal of phytopathology 2015-08, Vol.163 (7-8), p.583
Main Authors: Srivastava, Smita, Patel, Jai Singh, Singh, Harikesh Bahadur, Sinha, Asha, Sarma, Birinchi Kumar
Format: Article
Language:English
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Summary:Understanding on actinomycetes-mediated stress tolerance in plants is very limited. This study demonstrated for the first time some stress tolerance mechanisms in chickpea via mediation of an actinomycetes strain Streptomyces rocheiSM3. Here, we used the strain SM3 for treating chickpea seeds and plants raised from such seeds were challenged with Sclerotinia sclerotiorum and NaCl. Chickpea mortality due to Sc. sclerotiorum infection was suppressed by nearly 48%, and biomass accumulation was increased by nearly 20% in the salt-stressed condition in SM3-treated plants compared to non-treated plants. Physiological responses in chickpea under the challenging conditions showed that phenylalanine ammonia lyase activities increased in SM3-treated plants. This is followed by accumulation of higher concentrations of phenolics that led to enhanced lignifications in SM3-treated plants compared to non-SM3-treated plants challenged with the same stresses. Antioxidant activities, as assessed through catalase activities and proline accumulation, also increased in SM3-treated plants challenged with both the stresses compared to non-SM3-treated plants. Investigation at genetic level further showed that the strain SM3 triggered the ethylene (ET) responsive ERF transcription factor (CaTF2) under the challenged conditions. Thus, from this study, we conclude that actinomycetes St. rocheiSM3 trigger the ET-mediated defence pathway in chickpea and activates the phenylpropanoid pathway for alleviating the stresses caused by Sc. sclerotiorum and salt in chickpea.
ISSN:0931-1785
1439-0434
DOI:10.1111/jph.12358