Project description:VP963/DK1622

Project description:DK5653/DK1622 Vegetative

Project description:Myxococcus xanthus DK1622 transcriptome

Project description:Myxococcus xanthus strain:DK1622 Raw sequence reads

Project description:In response to starvation Myxococcus xanthus initiates a developmental program that culminates in the formation of fruiting bodies inside which the rod-shaped cells differentiate to spores. Fruiting body formation depends on intercellular communication and two intercellular signals are known, the A-signal and the C-signal. Five genes have been identified which are required for A-signal synthesis. To begin to understand the function of the genes required for A-signal synthesis, we have analysed gene expression in the asgA and the asgB mutant. Keywords: Vegetative cells of WT (DK1622) and AsgA mutant (DK5057) and AsgB mutant (DK4398)

Project description:In response to starvation Myxococcus xanthus initiates a developmental program that culminates in the formation of fruiting bodies inside which the rod-shaped cells differentiate to spores. Fruiting body formation depends on intercellular communication and two intercellular signals are known, the A-signal and the C-signal. Five genes have been identified which are required for A-signal synthesis. To begin to understand the function of the genes required for A-signal synthesis, we have analysed gene expression in the asgA and the asgB mutant. Keywords: Vegetative cells of WT (DK1622) and AsgA mutant (DK5057) and AsgB mutant (DK4398) 3 biological replicates each; normalized ratios to vegetative cells of DK1622 (wt) Cy5

Project description:To identify CdbA binding sites on Myxococcus xanthus genome in vivo we performed ChIP-seq, using a polyclonal anti-FLAG antibody and a strain endogenously expressing CdbA_3xFLAG. A WT DK1622 strain was used a negative control and a strain endogenously expressing ParB_3xFLAG was used as positive control.

Project description:Myxococcus xanthus DK1622 transcriptomic analysis at early times of interaction on Sinorhizobium meliloti

Project description:RNA-seq of the endogenous activated CRISPR-Cas in Myxococcus xanthus strain DK1622

Project description:In response to starvation, Myxococcus xanthus initiates a developmental program that results in the formation of spore-filled multicellular fruiting bodies. Here we have used cDNA microarray analysis to determine changes in the global gene expression at different time points of the developmental process. The expression of nearly 900 genes was found to be altered at least two-fold during development as compared to vegetative cells. Genes encoding proteins with typical vegetative functions such as protein synthesis and energy metabolism were transcriptionally down-regulated in the early stages of development. Among the 430 genes transcriptionally up-regulated during development genes with regulatory functions were overrepresented; underlining that fruiting body formation relies on a complex signalling network. Notably, almost 40% of all genes with increased expression at different stages of development encoded hypothetical proteins indicating a large unexplored potential of proteins important for fruiting body formation. Keywords: Time course of development with 9 time points 3 biological replicates each; normalized ratios to vegetative cells of DK1622 (wt) Cy5