A promiscuous antitoxin of bacteriophage T4 ensures successful viral replication
(2012)
Journal Article
Short, F., Blower, T., & Salmond, G. (2012). A promiscuous antitoxin of bacteriophage T4 ensures successful viral replication. Molecular Microbiology, 83(4), 665-668. https://doi.org/10.1111/j.1365-2958.2012.07974.x
All Outputs (4)
Viral Evasion of a Bacterial Suicide System by RNA-Based Molecular Mimicry Enables Infectious Altruism (2012)
Journal Article
Blower, T., Evans, T., Przybilski, R., Fineran, P., & Salmond, G. (2012). Viral Evasion of a Bacterial Suicide System by RNA-Based Molecular Mimicry Enables Infectious Altruism. PLoS Genetics, 8(10), https://doi.org/10.1371/journal.pgen.1003023
Identification and classification of bacterial Type III toxin-antitoxin systems encoded in chromosomal and plasmid genomes (2012)
Journal Article
Blower, T., Short, F., Rao, F., Mizuguchi, K., Pei, X., Fineran, P., …Salmond, G. (2012). Identification and classification of bacterial Type III toxin-antitoxin systems encoded in chromosomal and plasmid genomes. Nucleic Acids Research, 40(13), 6158-6173. https://doi.org/10.1093/nar/gks231
Viral molecular mimicry circumvents abortive infection and suppresses bacterial suicide to make hosts permissive for replication (2012)
Journal Article
Blower, T., Short, F., Fineran, P., & Salmond, G. (2012). Viral molecular mimicry circumvents abortive infection and suppresses bacterial suicide to make hosts permissive for replication. Bacteriophage, 2(4), 234-238. https://doi.org/10.4161/bact.23830The global interplay between bacteria and bacteriophages has generated many macromolecules useful in biotechnology, through the co-evolutionary see-saw of bacterial defense and viral counter-attack measures. Bacteria can protect themselves using abor... Read More about Viral molecular mimicry circumvents abortive infection and suppresses bacterial suicide to make hosts permissive for replication.