Recent progress in synthetic and systems metabolic engineering technologies has explored the potential of microbial cell factories for the production of industrially relevant bulk and fine chemicals from renewable biomass resources in an eco-friendly manner. Corynebacterium glutamicum, a workhorse for industrial amino acid production, has currently evolved into a promising microbial platform for bioproduction of various natural and non-natural chemicals from renewable feedstocks. Notably, it has been recently demonstrated that metabolically engineered C. glutamicum can overproduce several commercially valuable aromatic and related chemicals such as shikimate, 4-hydroxybenzoate, and 4-aminobenzoate from sugars at remarkably high titer suitable to commercial application. On the other hand, overexpression and/or extension of its endogenous metabolic pathways by integrating heterologous metabolic pathways enabled production of structurally intricate and valuable natural chemicals like plant polyphenols, carotenoids, and fatty acids. In this review, we summarize recent advances in metabolic engineering of C. glutamicum for production of those value-added aromatics and other natural products, which highlights high potential and the versatility of this microbe for bioproduction of diverse chemicals.
Fifteen randomly selected microsatellites (simple sequence repeats; SSRs), from the H99 Cryptococcus neoformans var. grubii (serotype A) genome, were sequenced, characterized and applied to sequence 87 clinical and environmental C. neoformans var. grubii isolates from 12 different countries based on Multilocus Microsatellite Typing (MLMT). Among the 15 SSR loci, three (designated CNG1, CNG2 and CNG3) were polymorphic, while the remaining 12 SSR loci showed no variations. The specific PCR primers of the polymorphic microsatellites, i.e., CNG1, CNG2 and CNG3, amplified those loci only from strains of C. neoformans (C. neoformans var. grubii, C. neoformans var. neoformans and the AD hybrid) but not from Cryptococcus gattii, suggesting a species-specific association. The three polymorphic microsatellites are useful markers for strain genotyping, population genetic analysis, epidemiological studies, and may be helpful for the diagnosis of cryptococcosis due to C. neoformans.
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