Journal Article10.1111/MMI.14124
Functional carbohydrate binding modules identified in evolved dits from siphophages infecting various Gram-positive bacteria.
Stephen Hayes,Renaud Vincentelli,Renaud Vincentelli,Jennifer Mahony,Arjen Nauta,Laurie Ramond,Laurie Ramond,Gabriele Andrea Lugli,Marco Ventura,Douwe van Sinderen,Christian Cambillau,Christian Cambillau,Christian Cambillau +12 more
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TL;DR: The omnipresence of CBM domains in siphophages indicates their auxiliary role in infection, as they can assist in the specific recognition of and attachment to their host, thus ensuring a highly efficient and specific phage‐host adhesion process as a prelude to DNA injection.
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Abstract: With increasing numbers of 3D structures of bacteriophage components, combined with powerful in silico predictive tools, it has become possible to decipher the structural assembly and associated functionality of phage adhesion devices Recently, decorations have been reported in the tail and neck passage structures of members of the so-called 936 group of lactococcal siphophages In the current report, using bioinformatic analysis we identified a conserved carbohydrate binding module (CBM) among many of the virion baseplate Dit components, in addition to the CBM present in the 'classical' receptor binding proteins (RBPs) We observed that, within these so-called 'evolved' Dit proteins, the identified CBMs have structurally conserved folds, yet can be grouped into four distinct classes We expressed such modules in fusion with GFP, and demonstrated their binding capability to their specific host using fluorescent binding assays with confocal microscopy We detected evolved Dits in several phages infecting various Gram-positive bacterial species, including mycobacteria The omnipresence of CBM domains in siphophages indicates their auxiliary role in infection, as they can assist in the specific recognition of and attachment to their host, thus ensuring a highly efficient and specific phage-host adhesion process as a prelude to DNA injection
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Citations
Fitness Trade-Offs Resulting from Bacteriophage Resistance Potentiate Synergistic Antibacterial Strategies.
TL;DR: The mechanisms behind phage resistance in bacterial pathogens and the physiological consequences of acquiringphage resistance phenotypes are explored and it may be possible to use phages to alter bacterial populations, making them more tractable to current therapeutic strategies.
167
The Many Applications of Engineered Bacteriophages-An Overview.
TL;DR: A review article as mentioned in this paper introduces readers to many of the varied and ingenious ways in which researchers are modifying phages to move them well beyond their innate ability to target and kill bacteria.
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Structure, function and assembly of the long, flexible tail of siphophages.
TL;DR: Recent advances in the structure, function and assembly of the core tail architecture of siphophages are reviewed.
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Genetic determinants of host tropism in Klebsiella phages
Beatriz Beamud,Neris García-González,Mar Gómez-Ortega,Fernando González-Candelas,Pilar Domingo-Calap,Rafael Sanjuán +5 more
TL;DR: In this paper , 46 phages were isolated to challenge 138 representative clinical isolates of Klebsiella pneumoniae, a widespread opportunistic pathogen, and spot tests showed a narrow host range for most phages, with < 2% of 6,319 phage-host combinations tested yielding detectable interactions.
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Phage Adsorption to Gram-Positive Bacteria
Audrey Leprince,Jacques Mahillon +1 more
TL;DR: In this paper , the authors give an overview of the phage life cycle and compile the available information on the type of receptors that can be recognized and the viral proteins taking part in the process, with the primary focus on phages infecting Gram-positive bacteria.
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