Project description:Microbacterium spp. isolated from soil Genome sequencing

Project description:Genomic response of C. elegans after infection with Microbacterium nematophilum.<br><br>The interaction between the nematode Caenorhabditis elegans and a Gram-positive bacterial pathogen, Microbacterium nematophilum, provides a model for an innate immune response in nematodes. This pathogen adheres to the rectal and post-anal cuticle of the worm, causing slowed growth, constipation, and a defensive swelling response of rectal hypodermal cells. To explore the genomic responses that the worm activates after pathogenic attack we used microarray analysis of transcriptional changes induced after 6 hr infection, comparing virulent with avirulent infection.

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 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:The project is a proteomic comparison of Microbacterium sp. A9 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 presented here were obtained using a protein database derived from the Microbacterium sp. A9 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:17β-estradiol (E2) pollution has attracted much attention, and the existence of E2 poses certain risks to the environment and human health. However, the mechanism of microbial degradation of E2 remains unclear. In this study, the location of E2-degrading enzymes was investigated, and transcriptome analysis of Microbacterium resistens MZT7 (M. resistens MZT7) exposed to E2. The degradation of E2 by M. resistens MZT7 was via the biological action of E2-induced intracellular enzymes. With the RNA sequencing, we found 1,109 differentially expressed genes (DEGs). Among, 773 genes were up-regulated and 336 genes were down-regulated. The results of the RNA sequencing indicated the DEGs were related to transport, metabolism, and stress response. Genes for transport, transmembrane transport, oxidoreductase activity, ATPase activity, transporter activity and quorum sensing were up-regulated. Genes for tricarboxylic acid cycle, ribosome, oxidative phosphorylation and carbon metabolism were down-regulated. These findings provide some new insights into the molecular mechanism of biotransformation of E2 by M. resistens MZT7.

Project description:Microbacterium arborescens genome sequencing

Project description:Microbacterium trichothecenolyticum Genome sequencing

Project description:Microbacterium oxydans Genome sequencing