Chemical synthesis of scyllo-inosamine and catabolism studies in Sinorhizobium meliloti

SIA was prepared from myo-inositol and fully characterized after 7 steps in 32% overall yield. Studies with bacterial mutant strains identified the mocABCR genes as essential for the catabolism of SIA. Rhizopines such as scyllo-inosamine (SIA) and l-3- O-methyl- scyllo-inosamine (3- O-MSI) play an intricate role as nutritional mediators during the establishment of the symbiotic relationship between legumes and rhizobia. The mechanism of action is not well understood. One challenge is the availability of rhizopines, which occur in only minute amounts in plant nodules. We herewith report an efficient synthesis of scyllo-inosamine and its biochemical activity in specific bacteria. SIA was prepared in 7 steps and 32% overall yield from readily available myo-inositol. The chemically synthesized SIA was tested to determine whether it can serve as sole carbon and nitrogen source for Sinorhizobium meliloti wild-type strain L5-30 and for strains carrying mutations in the rhizopine degradation ( moc) genes. The analysis of the phenotype of the mutant strains revealed that the moc genes previously shown to be essential for the breakdown of the rhizopines isolated from root nodules are also essential for the utilization of the chemically synthesized SIA.