In order to test a possible approach to enhance fermentative inosine production by Bacillus subtilis, seven gene-targeted mutations were introduced in the laboratory standard strain168 in a stepwise fashion. The mutations were employed in order to prevent inosine 5'-monophosphate (IMP) from being consumed for AMP and GMP synthesis, to minimize inosine degradation, and to expand the intracellular IMP pool. First, the genes for adenylosuccinate synthase (purA) and IMP dehydrogenase (guaB) were inactivated. Second, two genes for purine nucleoside phosphorylase, punA and deoD, were inactivated. Third, to enhance purine nucleotide biosynthesis, the pur operon repressor PurR and the 5'-UTR of the operon, containing the guanine riboswitch, were disrupted. Finally, the -10 sequence of the pur promoter was optimized to elevate its transcription level. The resulting mutant was capable of producing 6 g/L inosine from 30 g/L glucose in culture broth without the detectable by-production of hypoxanthine. This indicates the validity of this approach for the breeding of the next generation of B. subtilis strains for industrial nucleoside production.

• 出版日期2010-8