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Transcriptome analysis of Actinoplanes utahensis reveals molecular signature of saccharide impact on acarbose biosynthesis.

Chun-Yue WengLi-Zhen ShiYa-Jun WangYu-Guo Zheng
Published in: 3 Biotech (2020)
Different carbon sources lead to differential acarbose production in Actinoplanes. To uncover the underlying differentiation in the context of genes and pathways, we performed transcriptome sequencing of Actinoplanes utahensis ZJB-03852 grown on different saccharides, such as glucose, maltose, or the saccharide complex consisting of glucose plus maltose. The differentially expressed genes were classified into GO (gene ontology) terms and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathways for functional annotations. Key enriched modules were uncovered. Our data revealed that both maltose and its complex with glucose gave improved acarbose titer. Sugar transportation, cytochrome oxidase, protein synthesis and amino acid metabolism modules were enriched under the saccharide complex condition, while ferritin metabolism gene expressions were enriched in the glucose medium. Our results provided the foundation for uncovering the mechanism of carbon source on acarbose production in A. utahensis.
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