1-deoxynojirimycin (1-DNJ), a potent a-glycosidase inhibitor, has therapeutic applications in treatments of HIV, Gaucher’s disease, and diabetes. 1-DNJ has been extracted from natural sources (mulberry leaves) for therapeutic purposes; however, 1-DNJ ingredients are in limited supply and are costly to obtain on a large scale. Since certain strains of Bacillus and Streptomyces species reportedly produce 1-DNJ, they may serve as potential sources for high-yield 1-DNJ production. In this study, we obtained evidence for four bacteria that produce 1-DNJ in large quantities by high performance liquid chromatography and thin layer chromatography. Investigation of the effect of mulberry leaves powder concentration(1~5%), using the 1-DNJ high-production bacteria, provided evidence for microbial mass production of 1-DNJ.
DNA-based technology are about to revolutionize the analysis of population structures as well as the determination of individual indentities. Furthermore, the analysis of polymorphic DNA regions make it possible to reach detailed conclusions on family relationships of individual. Microsatellite loci are increasingly used in population genetic and evolutionary studies. Simple sequence repeats (SSRs) or microsatellites consisted of short tandem repeats (usually 1-6 nucleotide) have shown advantages over other markers. We report here the isolation and characterization of nine highly polymerphic microsatellite loci for phylogenetic and population genetic use in silkworm. Comparative analysis of diverse silkworm strains with microsatellite locus revealed several alleles and discriminative heterozygosity values. A list of primer sequences that tag each locus is provided. The usefulness of microsatellite markers can be expected to enhance the classification in silkworm.