Title of article
Nitrogenase activity and trehalose content of nodules of drought-stressed common beans infected with effective (Fix+) and ineffective (Fix−) rhizobia
Author/Authors
Zacarيas، نويسنده , , Juan José Jiménez and Altamirano-Hernلndez، نويسنده , , Josué and Cabriales، نويسنده , , Juan José Peٌa، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2004
Pages
7
From page
1975
To page
1981
Abstract
Nitrogenase activity and trehalose accumulation were measured in nodulated and non-nodulated common beans (Phaseolus vulgaris) that were exposed to drought. Plants were infected with the Fix+Rhizobiumsp NGR234, or a Fix− derivative (NGRΩfixF), or high trehalose-producing, native rhizobia. Trehalose content increased significantly while acetylene reduction activity (ARA) decreased in the nodules of plants exposed to drought. Nevertheless, ARA decreased at a slower rate in nodules with high trehalose levels. Under water stress, nodules infected with NGRΩfixF tended to accumulate more trehalose than nodules infected with wild-type NGR234 (9±0.1 vs 8±0.1 mg g−1 dw, respectively). Highest trehalose accumulations were registered in nodules of plants infected with native rhizobia (average 16 mg g−1 dw), and these plants also exhibited the highest relative water content (65%), while in plants infected with the NGRΩfixF RWC was significantly lower (56%). Our results suggest that nodule trehalose may protect bacterial nitrogenase activity under drought conditions, and that both trehalose and biological nitrogen fixation (BNF) contribute to drought tolerance.
Keywords
Rhizobium sp. NGR234 , nitrogenase , Relative water content , acetylene reduction , drought tolerance
Journal title
Soil Biology and Biochemistry
Serial Year
2004
Journal title
Soil Biology and Biochemistry
Record number
2182258
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