1993
DOI: 10.1146/annurev.arplant.44.1.483
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Gas Exchange of Legume Nodules and the Regulation of Nitrogenase Activity

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Cited by 88 publications
(132 citation statements)
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“…Bacteroids within indeterminate nodules increase their DNA content and cell size, which might allow them to reach a higher metabolic rate to support nitrogen fixation 65,68 . The intensive DNA synthesis that is required for endoreduplication within bacteroids requires a large quantity of dNTPs that must be supplied by ribonucleotide reductase (RNR) 89 . For many bacterial species, performing DNA synthesis in both an oxygen-rich environment, such as the infection thread, and an oxygen-depleted environment, such as the symbiosome, would present a lethal problem.…”
Section: Box 3 Host Invasion Parallels Between Rhizobia and Animal Pamentioning
confidence: 99%
See 1 more Smart Citation
“…Bacteroids within indeterminate nodules increase their DNA content and cell size, which might allow them to reach a higher metabolic rate to support nitrogen fixation 65,68 . The intensive DNA synthesis that is required for endoreduplication within bacteroids requires a large quantity of dNTPs that must be supplied by ribonucleotide reductase (RNR) 89 . For many bacterial species, performing DNA synthesis in both an oxygen-rich environment, such as the infection thread, and an oxygen-depleted environment, such as the symbiosome, would present a lethal problem.…”
Section: Box 3 Host Invasion Parallels Between Rhizobia and Animal Pamentioning
confidence: 99%
“…An oxygen-sensing bacterial regulatory cascade controls the expression of the nitrogenase complex and the microaerobic respiratory enzymes that are required to provide energy and reductant to nitrogenase 98 . This cascade is induced by the presence of low oxygen tension within the differentiating bacteroid 89,99,100 . The bacterial regulators include the oxygen-sensing two-component regulatory system FixL and FixJ, NifA, σ 54 and FixK 98 .…”
mentioning
confidence: 99%
“…For example, nitrogen is a primary component of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), the enzyme that catalyzes photosynthetic reduction of CO 2 to carbohydrate, while photosynthesis supplies organic carbon to nodules, where it is used in the nitrogenase enzyme system as a source of energy and reducing power to fix N 2 . Because of this coupling, nitrogenase activity in plants is regulated by aspects of both carbon and N processes (Vance and Heichel 1991;Hunt and Layzell 1993;Hartwig and Nosberger 1994), including photosynthesis (rate of carbon supply), nitrogen availability (N source strength), and nitrogen demand (N sink strength). It has been argued that the demand for symbiotically fixed N directly governs nitrogenase activity (Hartwig and Nosberger 1994) and the supply rate of carbon determines the degree to which the energy requirements of N 2 -fixation are met (Vance and Heichel 1991;Hunt and Layzell 1993).…”
Section: Introductionmentioning
confidence: 99%
“…The clear accumulation of carbohydrates in leaves supports its role as osmoprotectants in both species. However, total soluble sugars only increased in nodules of L. japonicus under salinity, suggesting the decline in nitrogenase activity observed in this specie was not caused directly by a lack of photosynthates (Hunt and Layzell 1993). This sugar accumulation may be due to the substantial decline in sucrose synthase activity, which controls the flux of carbon and energy for the bacteroids (Arrese-Igor et al 1999), leading to the decrease in nitrogen fixation.…”
Section: Lo´pez and C Lluchmentioning
confidence: 94%
“…Salinity is known to boost the nodular carbohydrate content and sucrose is the predominant carbohydrate in legume root nodules (Fouge`re et al 1991;Gordon et al 1997). It has been argued that the accumulation of sucrose under salinity, associated with inhibition of the sucrose hydrolytic enzyme sucrose synthase (Arrese-Igor et al 1999), induces a deficiency of carbon for bacteroids with the subsequent inhibition of nitrogenase activity (Hunt and Layzell 1993). A strong correlation between sugar accumulation and osmotic stress tolerance has been widely reported, including transgenic experiments (Gilmour et al 2000;Streeter et al 2001;Taji et al 2002).…”
Section: Introductionmentioning
confidence: 99%