A novel family of potentially mobile DNA elements encoding site‐specific gene‐integration functions: integrons HW Stokes, RM Hall Molecular microbiology 3 (12), 1669-1683, 1989 | 1297 | 1989 |
Mobile gene cassettes and integrons: capture and spread of genes by site‐specific recombination RM Hall, CM Collis Molecular microbiology 15 (4), 593-600, 1995 | 1149 | 1995 |
Gene cassettes: a new class of mobile element GD Recchia, RM Hall Microbiology 141 (12), 3015-3027, 1995 | 908 | 1995 |
Transposon Tn21, Flagship of the Floating Genome CA Liebert, RM Hall, AO Summers Microbiology and molecular biology reviews 63 (3), 507-522, 1999 | 797 | 1999 |
Expression of antibiotic resistance genes in the integrated cassettes of integrons CM Collis, RM Hall Antimicrobial agents and chemotherapy 39 (1), 155-162, 1995 | 637 | 1995 |
Site‐specific insertion of genes into integrons: role of the 59‐base element and determination of the recombination cross‐over point RM Hall, DE Brookes, HW Stokes Molecular microbiology 5 (8), 1941-1959, 1991 | 403 | 1991 |
Antibiotic resistance in gram-negative bacteria: the role of gene cassettes and integrons RM Hall, CM Collis Drug resistance UPDATES 1 (2), 109-119, 1998 | 401 | 1998 |
Structure and function of 59‐base element recombination sites associated with mobile gene cassettes HW Stokes, DB O'gorman, GD Recchia, M Parsekhian, RM Hall Molecular microbiology 26 (4), 731-745, 1997 | 400 | 1997 |
Site-specific deletion and rearrangement of integron insert genes catalyzed by the integron DNA integrase CM Collis, RM Hall Journal of Bacteriology 174 (5), 1574-1585, 1992 | 344 | 1992 |
Origins of the mobile gene cassettes found in integrons GD Recchia, RM Hall Trends in microbiology 5 (10), 389-394, 1997 | 310 | 1997 |
Site‐specific insertion of gene cassettes into integrons CM Collis, G Grammaticopoulos, J Briton, HW Stokes, RM Hall Molecular microbiology 9 (1), 41-52, 1993 | 299 | 1993 |
Integrons: novel DNA elements which capture genes by site-specific recombination RM Hall, HW Stokes Genetica 90, 115-132, 1993 | 298 | 1993 |
Movement of IS 26-associated antibiotic resistance genes occurs via a translocatable unit that includes a single IS 26 and preferentially inserts adjacent to another IS 26 CJ Harmer, RA Moran, RM Hall MBio 5 (5), 10.1128/mbio. 01801-14, 2014 | 280 | 2014 |
Gene cassettes from the insert region of integrons are excised as covalently closed circles CM Collis, RM Hall Molecular microbiology 6 (19), 2875-2885, 1992 | 278 | 1992 |
Variation in the complex carbohydrate biosynthesis loci of Acinetobacter baumannii genomes JJ Kenyon, RM Hall PloS one 8 (4), e62160, 2013 | 277 | 2013 |
Mobile gene cassettes and integrons: moving antibiotic resistance genes in gram‐negative bacteria RM Hall Ciba Foundation Symposium 207‐Antibiotic Resistance: Origins, Evolution …, 2007 | 274 | 2007 |
Commensal Escherichia coli of healthy humans: a reservoir for antibiotic-resistance determinants JK Bailey, JL Pinyon, S Anantham, RM Hall Journal of medical microbiology 59 (11), 1331-1339, 2010 | 262 | 2010 |
The Genomic Island SGI1, Containing the Multiple Antibiotic Resistance Region of Salmonella enterica Serovar Typhimurium DT104 or Variants of It, Is Widely Distributed in … RS Levings, D Lightfoot, SR Partridge, RM Hall, SP Djordjevic Journal of Bacteriology 187 (13), 4401-4409, 2005 | 253 | 2005 |
Mobile gene cassettes and integrons in evolution RM Hall, CM Collis, MIJ KIM, SR Partridge, GD Recchia, HW Stokes Annals of the New York Academy of Sciences 870 (1), 68-80, 1999 | 252 | 1999 |
The integrons In0, In2, and In5 are defective transposon derivatives HJ Brown, HW Stokes, RM Hall Journal of Bacteriology 178 (15), 4429-4437, 1996 | 244 | 1996 |