| Understanding bacteriophage specificity in natural microbial communities B Koskella, S Meaden Viruses 5 (3), 806-823, 2013 | 509 | 2013 |
| Anti-CRISPR phages cooperate to overcome CRISPR-Cas immunity M Landsberger, S Gandon, S Meaden, C Rollie, A Chevallereau, ... Cell 174 (4), 908-916. e12, 2018 | 259 | 2018 |
| PADLOC: a web server for the identification of antiviral defence systems in microbial genomes LJ Payne, S Meaden, MR Mestre, C Palmer, N Toro, PC Fineran, ... Nucleic acids research 50 (W1), W541-W550, 2022 | 208 | 2022 |
| Exploring the risks of phage application in the environment S Meaden, B Koskella Frontiers in microbiology 4, 358, 2013 | 159 | 2013 |
| Evolutionary emergence of infectious diseases in heterogeneous host populations. GS Chabas H, Lion S, Nicot A, Meaden S, van Houte S, Moineau S, Wahl LM ... PLoS Biology 16 (9), e2006738, 2018 | 100 | 2018 |
| The cost of phage resistance in a plant pathogenic bacterium is context-dependent S Meaden, K Paszkiewicz, B Koskella Evolution 69 (5), 1321-1328, 2015 | 97 | 2015 |
| The effect of phage genetic diversity on bacterial resistance evolution JM Broniewski, S Meaden, S Paterson, A Buckling, ER Westra The ISME journal 14 (3), 828-836, 2020 | 82 | 2020 |
| A signature of tree health? Shifts in the microbiome and the ecological drivers of horse chestnut bleeding canker disease B Koskella, S Meaden, WJ Crowther, R Leimu, CJE Metcalf New Phytologist 215 (2), 737-746, 2017 | 78 | 2017 |
| Individual bacteria in structured environments rely on phenotypic resistance to phage EL Attrill, R Claydon, U Łapińska, M Recker, S Meaden, AT Brown, ... PLoS Biology 19 (10), e3001406, 2021 | 63 | 2021 |
| Assessing Illumina technology for the high-throughput sequencing of bacteriophage genomes B Rihtman, S Meaden, MRJ Clokie, B Koskella, AD Millard PeerJ 4, e2055, 2016 | 59 | 2016 |
| Exploitation of the cooperative behaviors of anti-CRISPR phages A Chevallereau, S Meaden, O Fradet, M Landsberger, A Maestri, ... Cell host & microbe 27 (2), 189-198. e6, 2020 | 58 | 2020 |
| The effect of bacterial mutation rate on the evolution of CRISPR-Cas adaptive immunity A Chevallereau, S Meaden, S van Houte, ER Westra, C Rollie Philosophical Transactions of the Royal Society B 374 (1772), 20180094, 2019 | 56 | 2019 |
| The effects of host age and spatial location on bacterial community composition in the English Oak tree (Quercus robur) S Meaden, CJE Metcalf, B Koskella Environmental microbiology reports 8 (5), 649-658, 2016 | 50 | 2016 |
| High viral abundance and low diversity are associated with increased CRISPR-Cas prevalence across microbial ecosystems S Meaden, A Biswas, K Arkhipova, SE Morales, BE Dutilh, ER Westra, ... Current biology 32 (1), 220-227. e5, 2022 | 49 | 2022 |
| Recombination between phages and CRISPR−cas loci facilitates horizontal gene transfer in staphylococci A Varble, S Meaden, R Barrangou, ER Westra, LA Marraffini Nature microbiology 4 (6), 956-963, 2019 | 47 | 2019 |
| Phage gene expression and host responses lead to infection-dependent costs of CRISPR immunity S Meaden, L Capria, E Alseth, S Gandon, A Biswas, L Lenzi, S van Houte, ... The ISME journal 15 (2), 534-544, 2021 | 40 | 2021 |
| Understanding bacteriophage specificity in natural microbial communities. Viruses 5: 806–823 B Koskella, S Meaden, B Koskella, S Meaden | 38 | 2013 |
| Variability in the durability of CRISPR-Cas immunity H Chabas, A Nicot, S Meaden, ER Westra, DM Tremblay, L Pradier, ... Philosophical Transactions of the Royal Society B 374 (1772), 20180097, 2019 | 29 | 2019 |
| Adaptation of the pathogen, Pseudomonas syringae, during experimental evolution on a native vs. alternative host plant S Meaden, B Koskella Molecular ecology 26 (7), 1790-1801, 2017 | 29 | 2017 |
| Exploring the risks of phage application in the environment. Front Microbiol 4: 358 S Meaden, B Koskella | 17 | 2013 |
Britt KoskellaAssociate Professor, University of California, BerkeleyVerified email at berkeley.edu
