Project description:We reported transcriptome profiles of rifamycin SV-produced strain Amycolatopsis mediterranei U32 in the Bennet medium with or without 80 mM nitrate in different cultivation stage. By comparative analysis of genome-wide gene expression in these conditions, we found that the mechanism of high production of rifamycin SV induced by nitrate could be elucidated.
Project description:We reported transcriptome profiles of rifamycin SV-produced strain Amycolatopsis mediterranei U32 in the Bennet medium with or without 80 mM nitrate in different cultivation stage. By comparative analysis of genome-wide gene expression in these conditions, we found that the mechanism of high production of rifamycin SV induced by nitrate could be elucidated. Examination of 2 time-course transcription in 2 different nitrogen source conditions
Project description:The project aims to unveil the mechanism of rifamycin and its analog production by wild type A. mediterranei S699 and mutant A. mediterranei DCO#34 known to produce 24-desmethylrifamycin B at two time points. Stain that donot produce this molecule is taken as the negative control in the study.
