Project description:In nature, bacteria often survive in a stationary state, with low metabolic activity. Phages use the metabolic machinery of the host cell to replicate and, therefore, their efficacy against non-dividing cells is usually limited. Nevertheless, it was previously shown that the Staphylococcus epidermidis phage SEP1 has the remarkable capacity to actively replicate in stationary-phase cells, reducing their numbers. Here, we studied for the first time the transcriptomic profiles of both exponential and stationary cells infected with SEP1 phage, using RNA-seq, to have a better understanding of this rare phenomenon. We showed that SEP1 successfully takes over the transcriptional apparatus of both exponential and stationary cells. Infection was, however, delayed in stationary cells, with genes within the gp142-gp154 module putatively implicated in host takeover. S. epidermidis responded to SEP1 infection by upregulating three genes involved in a DNA modification system, with this being observed already 5 min after infection in exponential cells and later in stationary cells. In stationary cells, a significant number of genes involved in translation and RNA metabolic and biosynthetic processes were upregulated after 15 and 30 min of SEP1 infection in comparison with the uninfected control, showing that SEP1 activates metabolic and biosynthetic pathways necessary to its successful replication.
Project description:Human scalp hair follicles were snapfrozen directly after surgery or organ-cultured in the presence/absence of SEP1 phages. After treatment total RNA was isolated and prepared for RNA-seq
Project description:Cell cycle timecourse of fission yeast using a whole-culture (temperature sensitive mutant cdc25) synchronisation method in a sep1 deletion background
Project description:We observed the expression profile of the total mRNA of wild-type Thermus thermophilus HB8 strain during infection of bacteriophage ϕYS40. Keywords: time course, bacteriophage, infection, wild type
Project description:We observed the expression profile of the total mRNA in crp (TTHA1437) deletion mutant strain of Thermus thermophilus HB8 during infection of bacteriophage ϕYS40. Keywords: time course, bacteriophage, infection, CRP, cAMP receptor protein, deletion mutant
Project description:Different attB or attP DNA libraries containing 7-bp random nucleotides were used for in vitro recombination mediated by the purified integrase from mv4 bacteriophage against their cognate wild-type attB or attP recombination site.
Project description:We use Illumina sequencing to monitor mutations in the bacteriophage T7 genome in the presence of T7 DNA polymerase that has an altered exonuclease active site. These alterations include mutation of key residues in the exonuclease active site.
Project description:Genomic microarrays were used to examine the complex temporal program of gene expression exhibited by bacteriophage T4 during the course of development.The microarray data confirm the existence of distinct early, middle, and late transcriptional classes during the bacteriophage replicative cycle.This approach allows assignment of previously uncharacterized genes to specific temporal classes.The genomic expression data verify many promoter assignments and predict the existence of previously unidentified promoters. Keywords: time course
