Variability in molybdenum uptake activity in Bradyrhizobium japonicum strains

Abstract

Twenty naturally occurring strains of Bradyrhizobium japonicum in 11 serogroups were screened for the ability to take up Mo as bacteroids from soybean root nodules. The strains varied greatly in their ability to take up Mo in a 1-min period. The best strain was USDA 136, which had an Mo uptake activity of almost 3.0 pmol/min per mg of bacteroid (dry weight). In contrast, the poorest strain, USDA 62, had an Mo uptake activity of 0.35 pmol of Mo per min per mg of bacteroid. There were similarities in Mo uptake ability among most of the same serogroup members. The variability in Mo uptake rates between the best (USDA 136 and USDA 122) and poorest (USDA 62 and USDA 140) strains was attributed to their differing affinities for Mo. Double-reciprocal plots of velocity versus substrate indicated a Km for USDA 136 and USDA 122 of 0.045 and 0.054 microM, respectively, whereas strains USDA 62 and USDA 140 both exhibited an apparent Km for MoO42- of about 0.36 microM. The two strains with the higher-affinity Mo binding also accumulated four to five times as much Mo over a 30-min period as the other strains. Soybeans were grown in Mo-deficient and Mo-supplemented conditions after inoculation with the three top-ranking Mo uptake strains and the three poorest Mo uptake strains. Two separate greenhouse studies indicated that Mo supplementation significantly increased the N2 fixation activity of USDA 140 nodules; up to a 35% increase in specific nitrogen fixation activity of nodules due to Mo supplementation was observed. Strain USDA 62 nodule N2 fixation responded positively to Mo supplementation in one of the two experiments. The results indicate that MoO42- transport and, specifically, affinity for Mo by the bacteroid may ultimately affect symbiotic N2 fixation activity. Attempts to reactivate nitrogenase by adding molybdate to bacteroids from plants grown in Mo-deficient conditions were unsuccessful.