Project description:Complete genome sequence of bacteriophage T6.

Project description:Pseudomonas aeruginosa bacteriophage PhiKZ is the type representative of the ‘giant’ phage genus with unusually large virions and genomes. By unraveling the transcriptional map of the 280 kb genome to single-nucleotide resolution, we show that it encodes 369 genes organized in 134 operons, 20% more than originally annotated. Early transcription is initiated from 28 highly conserved AT-rich promoters distributed over the PhiKZ genome, all located on the same strand. Transcription of middle and late genes is dependent on protein synthesis and mediated by very poorly conserved middle (6) and late (16) promoters. As a result of massive PhiKZ transcription, halfway through infection only 1.5% of all mRNAs in the infected cell remain bacterial. Unique to PhiKZ is its ability to complete its infection in complete absence of bacterial RNA polymerase (RNAP) enzyme activity. Its transcription is performed by the consecutive action of two PhiKZ-encoded, non-canonical RNAPs, one of which is packed within the virion. This unique, rifampicin-resistant transcriptional machinery is conserved among giant viruses, seems to function without auxiliary factors and might have its origin preceding the split between Gram-positive and Gram-negative bacteria.

Project description:Pseudomonas aeruginosa bacteriophage PhiKZ is the type representative of the M-bM-^@M-^XgiantM-bM-^@M-^Y phage genus with unusually large virions and genomes. By unraveling the transcriptional map of the 280 kb genome to single-nucleotide resolution, we show that it encodes 369 genes organized in 134 operons, 20% more than originally annotated. Early transcription is initiated from 28 highly conserved AT-rich promoters distributed over the PhiKZ genome, all located on the same strand. Transcription of middle and late genes is dependent on protein synthesis and mediated by very poorly conserved middle (6) and late (16) promoters. As a result of massive PhiKZ transcription, halfway through infection only 1.5% of all mRNAs in the infected cell remain bacterial. Unique to PhiKZ is its ability to complete its infection in complete absence of bacterial RNA polymerase (RNAP) enzyme activity. Its transcription is performed by the consecutive action of two PhiKZ-encoded, non-canonical RNAPs, one of which is packed within the virion. This unique, rifampicin-resistant transcriptional machinery is conserved among giant viruses, seems to function without auxiliary factors and might have its origin preceding the split between Gram-positive and Gram-negative bacteria. Construction of transcription maps for the PhiKZ phage and analysis of differential expression of host and phage genes using RNA-Seq data from samples taken in duplicate at 0, 5, 10, 15, and 35 minutes into infection.

Project description:Bacteriophage Raw sequence reads

Project description:Grad-seq of Pseudomonas aerugionosa PAO1 at OD 0.3 with and without infection with ΦKZ bacteriophage

Project description:Sequence overlap between two genes is common across all genomes, with viruses having particularly high proportions of these gene overlaps. The natural biological function and effects on fitness of gene overlaps are not fully understood and their effects on gene cluster and genome-level refactoring are unknown.The model bacteriophage φX174 genome displays complex sequence architecture in which ~26% of nucleotides are involved in encoding more than one gene. In this study we use an engineered φX174 phage containing a genome with all gene overlaps removed. Here we have temporally measured the proteome of a synthetically engineered and wild-type φX174 during infection. We find that almost half of all phage proteins (5/11) have abnormal expression profiles after genome modularisation.

Project description:Complete Genome Sequence of Salmonella enterica Serovar Enteritidis Bacteriophage LPSE1, Isolated in China

Project description:Pseudomonas phage KPP23 DNA, complete sequence

Project description:Complete Genome Sequence of Bacteriophage EC1 That Specifically Infects E. coli O78:K80

Project description:Modified complete genome sequence of Pseudomonas phage vB_Pae-TbilisiM32