Publications by authors named "Tamara D James"

Article Synopsis
  • - Bacteriophage T4 utilizes the host's RNA polymerase to transcribe different classes of promoters during infection, with varying dependencies on viral proteins and host factors.
  • - Deleting DksA or ppGpp, two transcription regulators, leads to an increase in T4 plaque size; however, ppGpp deletion does not notably change burst size or transcript levels, while DksA deletion increases burst size and early gene expression.
  • - The study suggests that DksA negatively regulates early gene transcription, which impacts T4's overall productivity during infection, indicating that its regulation of transcription may involve indirect mechanisms or other factors.
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The ability of RNA polymerase (RNAP) to select the right promoter sequence at the right time is fundamental to the control of gene expression in all organisms. However, there is only one crystallized structure of a complete activator/RNAP/DNA complex. In a process called σ appropriation, bacteriophage T4 activates a class of phage promoters using an activator (MotA) and a co-activator (AsiA), which function through interactions with the σ(70) subunit of RNAP.

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Gene expression can be regulated through factors that direct RNA polymerase to the correct promoter sequence at the correct time. Bacteriophage T4 controls its development in this way using phage proteins that interact with host RNA polymerase. Using a process called σ appropriation, the T4 co-activator AsiA structurally remodels the σ(70) subunit of host RNA polymerase, while a T4 activator, MotA, engages the C terminus of σ(70) and binds to a DNA promoter element, the MotA box.

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Bordetella pertussis causes whooping cough, an infectious disease that is reemerging despite widespread vaccination. A more complete understanding of B. pertussis pathogenic mechanisms will involve unravelling the regulation of its impressive arsenal of virulence factors.

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During infection of Escherichia coli, bacteriophage T4 usurps the host transcriptional machinery, redirecting it to the expression of early, middle, and late phage genes. Middle genes, whose expression begins about 1 min postinfection, are transcribed both from the extension of early RNA into middle genes and by the activation of T4 middle promoters. Middle-promoter activation requires the T4 transcriptional activator MotA and coactivator AsiA, which are known to interact with σ(70), the specificity subunit of RNA polymerase.

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