Manjula Vasudeva scite author profile

A .S . Y A DA V, M . V AS U DE VA , K. K. U PA DH Y AY , S . K. SA W HN EY A ND R. K . V AS H IS HA T . 1999. Nitrogen fixing efficiency of sodium azide-resistant strains of Rhizobium leguminosarum bv. trifolii was studied in symbiosis with berseem clover plants in chillum jars. Rate of respiration and glutamine synthetase activity were tested in cultured cells and nodules, respectively. It was observed that shoot dry weight and percentage shoot nitrogen were maximum in plants inoculated with strains resistant to 15 mg ml −1 sodium azide. Rate of respiration in cultured cells was lowest in strains resistant to 15 mg ml −1 sodium azide and highest in strains resistant to 5 mg ml −1 sodium azide. A negative correlation was observed between rate of respiration (in cultured cells) and shoot dry weight of host plants. Glutamine synthetase activity was maximum in nodule extracts of host plants inoculated with strains resistant to 5 and 10 mg ml −1 sodium azide, whereas it was minimum for strains resistant to 15 mg ml −1 sodium azide. Hence, resistance to low doses (15 mg ml ) of sodium azide, together with lower respiratory and glutamine synthetase activities, could be used as a potential method for isolating the symbiotically effective strains of Rh. leguminosarum bv. trifolii.

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Azide resistant mutants ofAcetobacterdiazotrophicusandAzospirillum brasilenseincrease yield and nitrogen content of cotton

Sharma

Vasudeva

2005

Journal of Plant Interactions

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Evolution of symbiotic plant-microbe interactions has provided mankind a powerful and environment-friendly means to increase yield of agricultural crops. Here, we report that some azide resistant mutants of two microbial strains can significantly enhance the productivity of cotton varieties, as an attractive and cheap biological substitute of chemical fertilizers, for improved yield of an important cash crop, without any untoward impacts. Sodium azide resistant mutants were isolated from each strain of Azospirillum brasilense and Acetobacter diazotrophicus on different concentrations of sodium azide ranging from 5 Á60mg/ml. These azide resistant mutants were assessed for their performance on cotton (varieties H-117, HD-123) for various parameters. Inoculation of cottonseeds with mutants obtained better results than inoculation with their respective parental strains. Azide resistant mutants, when used as biofertilizers, showed increased plant height, early flowering, more yield, and high biomass and total nitrogen content. They also increased, in cotton genotypes, the indole acetic acid production and ammonia excretion due to high nitrogenase activity.

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