Symbiotic properties of 5-methyltryptophan-resistant mutants of Bradyrhizobium japonicum

The effect that resistance to 5-methyltryptophan (MT) has on the symbiotic properties of B. japonicum was examined in a survey of fourteen clones. Resistance to MT often involves a mutational alteration in the regulation of tryptophan biosynthesis. Resistant clones (MTR) were isolated from agar plates containing MT. In the selection process care was taken to avoid pigmented clones that are likely to accumulate large amounts of indole compounds or show increased tryptophan catabolism. Wild-type control clones (WTC) were isolated from plates containing no selective agent. In greenhouse studies, Tracy-M soybean plants were inoculated with the two types of clones. After six weeks, plants which were inoculated with the MT resistant clones showed a much greater range of symbiotic effectiveness than did plants that received the control clones. While most MT-resistant clones were poor symbionts or unchanged in their symbiotic performance, one clone was obtained that had significantly improved symbiotic properties. The procedure may offer a way of selecting for clones with improved symbiotic performance. These results also indicate a link between tryptophan biosynthesis and symbiotic effectiveness.