摘要：

A series of investigations were conducted with the objective of elucidating natural pathways of electron transport from respiratory processes to the site of N 2 fixation in nodule bacteroids. A survey of dehydrogenase activities in a crude extract of soybean nodule bacteroids revealed relatively high activities of NAD-specific β-hydroxybutyrate and glyceraldehyde-3-phosphate dehydrogenases. Moderate activities of NADP-specific isocitrate and glucose-6-phosphate dehydrogenases were observed. By use of the ATP-dependent acetylene reduction reaction catalyzed by soybean bacteroid nitrogenase, and enzymes and cofactors from bacteroids and other sources, the following sequences of electron transport to bacteroid nitrogenase were demonstrated: (1) H 2 to bacteroid nitrogenase in presence of a nitrogenase-free extract of C. pasteurianum ; (2) β-hydroxybutyrate to bacteroid nitrogenase in a reaction containing β-hydroxybutyrate dehydrogenase, NADH dehydrogenase, NAD and benzyl viologen; (3) β-hydroxybutyrate dehydrogenase, to nitrogenase in reaction containing NADH dehydrogenase, NAD and either FMN or FAD; (4) light-dependent transfer of electrons from ascorbate to bacteroid nitrogenase in a reaction containing photosystem I from spinach chloroplasts, 2,6-dichlorophenolindophenol, and either azotoflavin from Azotobacter or non-heme iron protein from bacteroids; (5) glucose-6-phosphate to bacteroid nitrogenase in a system that included glucose-6-phosphate dehydrogenase, NADP, NADP-ferredoxin reductase from spinach, azotoflavin from Azotobacter and bacteroid non-heme iron protein. The electron transport factors, azotoflavin and bacteroid non-heme iron protein, failed to function in the transfer of electrons from an NADH-generating system to bacteroid nitrogenase. When FMN or FAD were added to systems containing azotoflavin and bacteroid non-heme iron protein, electrons apparently were transferred to the flavin-nucleotides and then nitrogenase without involvement of azotoflavin and bacteroid non-heme iron protein.Evidence is available indicating that nodule bacteroids contain flavoproteins analogous to Azotobacter, azotoflavin, and spinach ferredoxin-NADP reductase. It is concluded that physiologically important systems involved in transport of electrons from dehydrogenases to nitrogenase in bacteroids very likely will include relatively specific electron transport proteins such as bacteroid non-heme iron protein and a flavoprotein from bacteroids that is analogous to azotoflavin.

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