Project description:Investigation of whole genome gene expression differences in a full (nine-gene) Lsr locus knockout strain compared to the wild-type strain (CZ4126/02). This Lsr mutant is unable to import the autoinducer-2 (AI-2) quorum sensing molecule nor mediate any potential LsrR-based transcriptional regulation.
Project description:This project is a proteomic comparison of Microbacterium lemovicicum Viu22 exposed to 10 µM nitrate uranyl versus control condition without uranyl. Three sampling time points (30 min, 4h and 24h) were analyzed. The proteomics datasets were obtained using a protein database derived from the Microbacterium lemovicicum Viu22 complete genome.
Project description:This project is a proteomic comparison of Microbacterium sp. Viu2A exposed to 10 µM nitrate uranyl versus control condition without uranyl. Three sampling time points (30 min, 4h and 24h) were analyzed. The proteomics datasets were obtained using a protein database derived from the Microbacterium sp. Viu2A complete genome.
Project description:This project is a proteomic comparison of Microbacterium sp. HG3 exposed to 10 µM nitrate uranyl versus control condition without uranyl. Three sampling time points (30 min, 4h and 24h) were analyzed. The datasets were obtained using a protein database derived from the Microbacterium sp. HG3 complete genome.
Project description:To discover novel regulators that influence avermectin biosynthesis, comparative transcriptome analysis between wild-type strain ATCC31267 and avermectin overproducing strain 76-02-e were performed to reveal some differentially expressed genes.
Project description:Investigation of whole genome gene expression differences between a full (nine-gene) Lsr locus deletion and a luxS deletion strain (double knock-out) compared to a luxS isogenic mutant strain (each derived from the CZ4126/02 parent strain). Both strains are unable to produce the autoinducer-2 (AI-2) quorum sensing molecule. In addition, the Lsr mutant is unable to import AI-2 nor mediate any potential LsrR-based transcriptional regulation.
