Escherichia coli XerC recombinase is required for chromosomal segregation at cell division. G Blakely, S Colloms, G May, M Burke, D Sherratt The New Biologist 3 (8), 789-798, 1991 | 259 | 1991 |
The mechanism of transposition of Tc3 in C. elegans HGAM van Luenen, SD Colloms, RHA Plasterk Cell 79 (2), 293-301, 1994 | 239 | 1994 |
xerB, an Escherichia coli gene required for plasmid ColE1 site‐specific recombination, is identical to pepA, encoding aminopeptidase A, a protein with substantial similarity to … CJ Stirling, SD Colloms, JF Collins, G Szatmari, DJ Sherratt The EMBO Journal 8 (5), 1623-1627, 1989 | 230 | 1989 |
New applications for phage integrases PCM Fogg, S Colloms, S Rosser, M Stark, MCM Smith Journal of molecular biology 426 (15), 2703-2716, 2014 | 199 | 2014 |
Recombination at ColE1 cer requires the Escherichia coli xerC gene product, a member of the lambda integrase family of site-specific recombinases SD Colloms, P Sykora, G Szatmari, DJ Sherratt Journal of bacteriology 172 (12), 6973-6980, 1990 | 198 | 1990 |
Xer‐mediated site‐specific recombination in vitro. SD Colloms, R McCulloch, K Grant, L Neilson, DJ Sherratt The EMBO Journal 15 (5), 1172-1181, 1996 | 155 | 1996 |
Molecular architecture of the Mos1 paired-end complex: the structural basis of DNA transposition in a eukaryote JM Richardson, SD Colloms, DJ Finnegan, MD Walkinshaw Cell 138 (6), 1096-1108, 2009 | 153 | 2009 |
Site-specific recombination and circular chromosome segregation DJ Sherratt, LK Arciszewska, G Blakely, S Colloms, K Grant, N Leslie, ... Philosophical Transactions of the Royal Society of London. Series B …, 1995 | 145 | 1995 |
Rapid metabolic pathway assembly and modification using serine integrase site-specific recombination SD Colloms, CA Merrick, FJ Olorunniji, WM Stark, MCM Smith, A Osbourn, ... Nucleic acids research 42 (4), e23-e23, 2014 | 136 | 2014 |
FtsK functions in the processing of a Holliday junction intermediate during bacterial chromosome segregation FX Barre, M Aroyo, SD Colloms, A Helfrich, F Cornet, DJ Sherratt Genes & Development 14 (23), 2976-2988, 2000 | 134 | 2000 |
X-ray structure of aminopeptidase A from Escherichia coli and a model for the nucleoprotein complex in Xer site-specific recombination N Sträter, DJ Sherratt, SD Colloms The EMBO Journal 18 (16), 4513-4522, 1999 | 133 | 1999 |
Topological selectivity in Xer site-specific recombination SD Colloms, J Bath, DJ Sherratt Cell 88 (6), 855-864, 1997 | 130 | 1997 |
Xer‐mediated site‐specific recombination at cer generates Holliday junctions in vivo. R McCulloch, LW Coggins, SD Colloms, DJ Sherratt The EMBO Journal 13 (8), 1844-1855, 1994 | 108 | 1994 |
Direct interaction of aminopeptidase A with recombination site DNA in Xer site‐specific recombination C Alén, DJ Sherratt, SD Colloms The EMBO journal, 1997 | 99 | 1997 |
DNA binding activities of the Caenorhabditis elegans Tc3 transposase SD Colloms, HGAM van Luenen, RHA PIasterk Nucleic acids research 22 (25), 5548-5554, 1994 | 75 | 1994 |
The ArcA/ArcB two‐component regulatory system of Escherichia coli is essential for Xer site‐specific recombination at psi SD Colloms, C Alén, DJ Sherratt Molecular microbiology 28 (3), 521-530, 1998 | 73 | 1998 |
Tangle analysis of Xer recombination reveals only three solutions, all consistent with a single three-dimensional topological pathway M Vazquez, SD Colloms Journal of molecular biology 346 (2), 493-504, 2005 | 64 | 2005 |
Genomic DNA fingerprinting by restriction fragment end labeling. TJ Van Steenbergen, SD Colloms, PW Hermans, J de Graaff, RH Plasterk Proceedings of the National Academy of Sciences 92 (12), 5572-5576, 1995 | 61 | 1995 |
Mobilization of quiet, endogenous Tc3 transposons of Caenorhabditis elegans by forced expression of Tc3 transposase. HG Van Luenen, SD Colloms, RH Plasterk The EMBO journal 12 (6), 2513-2520, 1993 | 57 | 1993 |
Accessory factors determine the order of strand exchange in Xer recombination at psi M Bregu, DJ Sherratt, SD Colloms The EMBO Journal, 2002 | 53 | 2002 |