Mechanisms of site-specific recombination NDF Grindley, KL Whiteson, PA Rice Annu. Rev. Biochem. 75, 567-605, 2006 | 942 | 2006 |
Identification of residues critical for the polymerase activity of the Klenow fragment of DNA polymerase I from Escherichia coli. AH Polesky, TA Steitz, ND Grindley, CM Joyce Journal of Biological Chemistry 265 (24), 14579-14591, 1990 | 330 | 1990 |
The 3′‐5′ exonuclease of DNA polymerase I of Escherichia coli: contribution of each amino acid at the active site to the reaction. V Derbyshire, ND Grindley, CM Joyce The EMBO Journal 10 (1), 17-24, 1991 | 329 | 1991 |
Conformational transitions in DNA polymerase I revealed by single-molecule FRET Y Santoso, CM Joyce, O Potapova, L Le Reste, J Hohlbein, JP Torella, ... Proceedings of the National Academy of Sciences 107 (2), 715-720, 2010 | 303 | 2010 |
Transpositional recombination in prokaryotes NDF Grindley, RR Reed Annual review of biochemistry 54 (1), 863-896, 1985 | 300 | 1985 |
Method for determining whether a gene of Escherichia coli is essential: application to the polA gene CM Joyce, ND Grindley Journal of bacteriology 158 (2), 636-643, 1984 | 291 | 1984 |
A single side chain prevents Escherichia coli DNA polymerase I (Klenow fragment) from incorporating ribonucleotides M Astatke, K Ng, NDF Grindley, CM Joyce Proceedings of the National Academy of Sciences 95 (7), 3402-3407, 1998 | 275 | 1998 |
Transposon-mediated site-specific recombination in vitro: DNA cleavage and protein-DNA linkage at the recombination site RR Reed, NDF Grindley Cell 25 (3), 721-728, 1981 | 234 | 1981 |
Construction of a plasmid that overproduces the large proteolytic fragment (Klenow fragment) of DNA polymerase I of Escherichia coli. CM Joyce, ND Grindley Proceedings of the National Academy of Sciences 80 (7), 1830-1834, 1983 | 231 | 1983 |
Side chains involved in catalysis of the polymerase reaction of DNA polymerase I from Escherichia coli. AH Polesky, ME Dahlberg, SJ Benkovic, ND Grindley, CM Joyce Journal of Biological Chemistry 267 (12), 8417-8428, 1992 | 230 | 1992 |
Nucleotide sequence of the Escherichia coli polA gene and primary structure of DNA polymerase I. CM Joyce, WS Kelley, ND Grindley Journal of Biological Chemistry 257 (4), 1958-1964, 1982 | 205 | 1982 |
Molecular studies of R factor compatibility groups NDF Grindley, GO Humphreys, ES Anderson Journal of Bacteriology 115 (1), 387-398, 1973 | 195 | 1973 |
Transposon-mediated site-specific recombination: Identification of three binding sites for resolvase at the res sites of γδ and Tn 3 NDF Grindley, MR Lauth, RG Wells, RJ Wityk, JJ Salvo, RR Reed Cell 30 (1), 19-27, 1982 | 186 | 1982 |
Genetic and DNA sequence analysis of the kanamycin resistance transposon Tn903. ND Grindley, CM Joyce Proceedings of the National Academy of Sciences 77 (12), 7176-7180, 1980 | 185 | 1980 |
IS1 insertion generates duplication of a nine base pair sequence at its target site NDF Grindley Cell 13 (3), 419-426, 1978 | 183 | 1978 |
Sequence analysis at IS1 insertion sites: models for transposition NDF Grindley, DJ Sherratt Cold Spring Harbor Symposia on Quantitative Biology 43, 1257-1261, 1979 | 181 | 1979 |
The Movement of Tn 3 ‐Like Elements: Transposition and Cointegrate Resolution NDF Grindley Mobile DNA II, 272-302, 2007 | 169 | 2007 |
How E. coli DNA polymerase I (Klenow fragment) distinguishes between deoxy-and dideoxynucleotides M Astatke, NDF Grindley, CM Joyce Journal of molecular biology 278 (1), 147-165, 1998 | 167 | 1998 |
Fingers-closing and other rapid conformational changes in DNA polymerase I (Klenow fragment) and their role in nucleotide selectivity CM Joyce, O Potapova, AM DeLucia, X Huang, VP Basu, NDF Grindley Biochemistry 47 (23), 6103-6116, 2008 | 164 | 2008 |
Use of 2-aminopurine fluorescence to examine conformational changes during nucleotide incorporation by DNA polymerase I (Klenow fragment) V Purohit, NDF Grindley, CM Joyce Biochemistry 42 (34), 10200-10211, 2003 | 164 | 2003 |