T
Tracy Palmer
Researcher at Newcastle University
Publications - 187
Citations - 13490
Tracy Palmer is an academic researcher from Newcastle University. The author has contributed to research in topics: Twin-arginine translocation pathway & Signal peptide. The author has an hindex of 62, co-authored 177 publications receiving 12678 citations. Previous affiliations of Tracy Palmer include University of East Anglia & University of Oxford.
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Journal ArticleDOI
The Tat protein export pathway
TL;DR: Recent progress on the characterization of the Tat system is reviewed and the structure and operation of this major new bacterial protein export pathway is critically discussed.
Journal ArticleDOI
Overlapping functions of components of a bacterial Sec-independent protein export pathway.
Frank Sargent,Frank Sargent,Erik G. Bogsch,Nicola R. Stanley,Nicola R. Stanley,Margaret Wexler,Margaret Wexler,Colin Robinson,Ben C. Berks,Tracy Palmer,Tracy Palmer +10 more
TL;DR: Two Escherichia coli genes required for the export of cofactor‐containing periplasmic proteins, synthesized with signal peptides containing a twin arginine motif are identified, indicating the involvement of the gene products in a novel export system.
Journal ArticleDOI
Prediction of twin-arginine signal peptides
Jannick Dyrløv Bendtsen,Henrik Nielsen,David A. Widdick,David A. Widdick,Tracy Palmer,Tracy Palmer,Søren Brunak +6 more
TL;DR: The TatP method is able to discriminate Tat signal peptide from cytoplasmic proteins carrying a similar motif, as well as from Sec signal peptides, with high accuracy and generates far less false positive predictions on various datasets than using simple pattern matching.
Journal ArticleDOI
The twin-arginine translocation (Tat) protein export pathway
Tracy Palmer,Ben C. Berks +1 more
TL;DR: This Review summary summarizes recent advances in understanding of how the twin-arginine translocation protein export system operates in the cytoplasmic membranes of bacteria and archaea.
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The complex extracellular biology of Streptomyces
TL;DR: Comparative genomic analysis suggests that the acquisition of genes for extracellular processes has played a huge part in speciation and the rare codon TTA, which is present in the key pleiotropic regulatory gene adpA and many pathway-specific regulatory genes for antibiotic production, has a particular influence onextracellular biology.