A century of the phage: past, present and future GPC Salmond, PC Fineran Nature Reviews Microbiology 13 (12), 777-786, 2015 | 817 | 2015 |
The phage abortive infection system, ToxIN, functions as a protein–RNA toxin–antitoxin pair PC Fineran, TR Blower, IJ Foulds, DP Humphreys, KS Lilley, ... Proceedings of the National Academy of Sciences 106 (3), 894-899, 2009 | 669 | 2009 |
The arms race between bacteria and their phage foes HG Hampton, BNJ Watson, PC Fineran Nature 577 (7790), 327-336, 2020 | 616 | 2020 |
The biosynthesis and regulation of bacterial prodiginines NR Williamson, PC Fineran, FJ Leeper, GPC Salmond Nature Reviews Microbiology 4 (12), 887-899, 2006 | 587 | 2006 |
CRISPR-Cas: adapting to change SA Jackson, RE McKenzie, RD Fagerlund, SN Kieper, PC Fineran, ... Science 356 (6333), eaal5056, 2017 | 408 | 2017 |
Cytotoxic chromosomal targeting by CRISPR/Cas systems can reshape bacterial genomes and expel or remodel pathogenicity islands RB Vercoe, JT Chang, RL Dy, C Taylor, T Gristwood, JS Clulow, C Richter, ... PLoS genetics 9 (4), e1003454, 2013 | 406 | 2013 |
CRISPR–Cas systems: beyond adaptive immunity ER Westra, A Buckling, PC Fineran Nature Reviews Microbiology 12 (5), 317-326, 2014 | 373 | 2014 |
Inactivation of CRISPR-Cas systems by anti-CRISPR proteins in diverse bacterial species A Pawluk, RHJ Staals, C Taylor, BNJ Watson, S Saha, PC Fineran, ... Nature microbiology 1 (8), 1-6, 2016 | 352 | 2016 |
CRISPRTarget: bioinformatic prediction and analysis of crRNA targets A Biswas, JN Gagnon, SJJ Brouns, PC Fineran, CM Brown RNA biology 10 (5), 817-827, 2013 | 345 | 2013 |
CRISPRDetect: a flexible algorithm to define CRISPR arrays A Biswas, RHJ Staals, SE Morales, PC Fineran, CM Brown BMC genomics 17, 1-14, 2016 | 325 | 2016 |
Remarkable Mechanisms in Microbes to Resist Viral Infections RL Dy, C Richter, GPC Salmond, PC Fineran Annual Review of Virology 1 (1), 307-331, 2014 | 317 | 2014 |
Memory of viral infections by CRISPR-Cas adaptive immune systems: acquisition of new information PC Fineran, E Charpentier Virology 434 (2), 202-209, 2012 | 317 | 2012 |
Degenerate target sites mediate rapid primed CRISPR adaptation PC Fineran, MJH Gerritzen, M Suárez-Diez, T Künne, J Boekhorst, ... Proceedings of the National Academy of Sciences 111 (16), E1629-E1638, 2014 | 303 | 2014 |
A widespread bacteriophage abortive infection system functions through a Type IV toxin–antitoxin mechanism RL Dy, R Przybilski, K Semeijn, GPC Salmond, PC Fineran Nucleic acids research 42 (7), 4590-605, 2014 | 302 | 2014 |
Anticancer and immunosuppressive properties of bacterial prodiginines NR Williamson, PC Fineran, T Gristwood, SR Chawrai, FJ Leeper, ... Future microbiology 2 (6), 605-618, 2007 | 264 | 2007 |
Function and regulation of clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR associated (Cas) systems C Richter, JT Chang, PC Fineran Viruses 4 (10), 2291-2311, 2012 | 255 | 2012 |
Priming in the Type IF CRISPR-Cas system triggers strand-independent spacer acquisition, bi-directionally from the primed protospacer C Richter, RL Dy, RE McKenzie, BNJ Watson, C Taylor, JT Chang, ... Nucleic acids research 42 (13), 8516-8526, 2014 | 223 | 2014 |
Global phylogeography and ancient evolution of the widespread human gut virus crAssphage R Edwards, A Vega, H Norman, MC Ohaeri, K Levi, E Dinsdale, O Cinek, ... Nature Microbiology, 2019 | 218 | 2019 |
Quorum sensing controls adaptive immunity through the regulation of multiple CRISPR-Cas systems AG Patterson, SA Jackson, C Taylor, GB Evans, GPC Salmond, ... Molecular cell 64 (6), 1102-1108, 2016 | 214 | 2016 |
Biotechnological exploitation of bacteriophage research NK Petty, TJ Evans, PC Fineran, GPC Salmond Trends in biotechnology 25 (1), 7-15, 2007 | 203 | 2007 |