Project description:This series represents the work described in the publication Bacillus subtilis Genome Diversity by Earl et al. (Journal of Bacteriology, accepted) Keywords: comparative genomic hybridization
Project description:Comparative Genomic Hybridization. Analysis of genomic content of closely related Bacillus species. Refer to individual records for strain information. Refer to platform and individual sample records for experimental protocols. Keywords: other
Project description:This SuperSeries is composed of the following subset Series: GSE13711: Comparative transcriptome and phenotype analysis of acid-stressed Bacillus cereus strain ATCC 14579 GSE13729: Comparative transcriptome and phenotype analysis of acid-stressed Bacillus cereus strain ATCC 10987 Refer to individual Series
Project description:Comparative Genomic Hybridization. Analysis of genomic content of closely related Bacillus species. Refer to individual records for strain information. Refer to platform and individual sample records for experimental protocols.
Project description:Bacterial cell envelope is the first and the major line of defense against threats from the environment. Because of its crucial roles in bacterial cell life, cell envelope is a prime target for numerous antibiotics. In this study, by treating Gram-positive model strain Bacillus subtilis with numbers of cell wall targeted antibiotics, we aimed to obtain a global comprehensive transcriptional profile of cell envelope stress response in B. subtilis via transcriptomic study using high-throughput RNA sequencing approach. This knowledge will then be subject to a series of comparative genomics analyses to get detailed information of the distribution and conservation of cell envelope stress-sensing regulatory systems in B. subtilis.
Project description:Identification of the specific WalR (YycF) binding regions on the B. subtilis chromosome during exponential and phosphate starvation growth phases. The data serves to extend the WalRK regulon in Bacillus subtilis and its role in cell wall metabolism, as well as implying a role in several other cellular processes.
