Correy GJ, Zaidman D, Harmelin A, Carvalho S, Mabbitt PD, Calaora V, James PJ, Kotze AC, Jackson CJ, London N (2019)
Overcoming insecticide resistance through computational inhibitor design
Proc Natl Acad Sci U S A 116: 21012
Correy GJ, Carr PD, Meirelles T, Mabbitt PD, Fraser NJ, Weik M, Jackson CJ (2016)
Mapping the Accessible Conformational Landscape of an Insect Carboxylesterase Using Conformational Ensemble Analysis and Kinetic Crystallography
Structure 24: 977
Fraser NJ, Liu JW, Mabbitt PD, Correy GJ, Coppin CW, Lethier M, Perugini MA, Murphy JM, Oakeshott JG, Weik M, Jackson CJ (2016)
Evolution of Protein Quaternary Structure in Response to Selective Pressure for Increased Thermostability
Journal of Molecular Biology 428: 2359
Mabbitt PD, Correy GJ, Meirelles T, Fraser NJ, Coote ML, Jackson CJ (2016)
Conformational Disorganization within the Active Site of a Recently Evolved Organophosphate Hydrolase Limits Its Catalytic Efficiency
Biochemistry 55: 1408
Jackson CJ, Liu JW, Carr PD, Younus F, Coppin C, Meirelles T, Lethier M, Pandey G, Ollis DL, Russell RJ, Weik M, Oakeshott JG (2013)
Structure and function of an insect alpha-carboxylesterase (alphaEsterase7) associated with insecticide resistance
Proc Natl Acad Sci U S A 110: 10177
Coppin CW, Jackson CJ, Sutherland T, Hart PJ, Devonshire AL, Russell RJ, Oakeshott JG (2012)
Testing the evolvability of an insect carboxylesterase for the detoxification of synthetic pyrethroid insecticides
Insect Biochemistry & Molecular Biology 42: 343
Devonshire AL, Heidari R, Huang HZ, Hammock BD, Russell RJ, Oakeshott JG (2007)
Hydrolysis of individual isomers of fluorogenic pyrethroid analogs by mutant carboxylesterases from Lucilia cuprina
Insect Biochemistry & Molecular Biology 37: 891
Heidari R, Devonshire AL, Campbell BE, Dorrian SJ, Oakeshott JG, Russell RJ (2005)
Hydrolysis of pyrethroids by carboxylesterases from Lucilia cuprina and Drosophila melanogaster with active sites modified by in vitro mutagenesis
Insect Biochemistry & Molecular Biology 35: 597
Newcomb RD, Gleeson DM, Yong CG, Russell RJ, Oakeshott JG (2005)
Multiple mutations and gene duplications conferring organophosphorus insecticide resistance have been selected at the Rop-1 locus of the sheep blowfly, Lucilia cuprina
Journal of Molecular Evolution 60: 207
Heidari R, Devonshire AL, Campbell BE, Bell KL, Dorrian SJ, Oakeshott JG, Russell RJ (2004)
Hydrolysis of organophosphorus insecticides by in vitro modified carboxylesterase E3 from Lucilia cuprina
Insect Biochemistry & Molecular Biology 34: 353
Devonshire AL, Heidari R, Bell KL, Campbell PM, Campbell BE, Odgers WA, Oakeshott JG, Russell RJ (2003)
Kinetic efficiency of mutant carboxylesterases implicated in organophosphate insecticide resistance
Pesticide Biochemistry and Physiology 76: 1
Campbell PM, Newcomb RD, Russell RJ, Oakeshott JG (1998)
Two different amino acid substitutions in the ali-esterase, E3, confer alternative types of organophosphorus insecticide resistance in the sheep blowfly, Lucilia cuprina
Insect Biochemistry & Molecular Biology 28: 139
Campbell PM, Trott JF, Claudianos C, Smyth KA, Russell RJ, Oakeshott JG (1997)
Biochemistry of esterases associated with organophosphate resistance in Lucilia cuprina with comparisons to putative orthologues in other Diptera
Biochemical Genetics 35: 17
Newcomb RD, Campbell PM, Ollis DL, Cheah E, Russell RJ, Oakeshott JG (1997)
A single amino acid substitution converts a carboxylesterase to an organophosphorus hydrolase and confers insecticide resistance on a blowfly
Proceedings of the National Academy of Sciences of the United States of America 94: 7464
Newcomb RD, East PD, Russell RJ, Oakeshott JG (1996)
Isolation of alpha cluster esterase genes associated with organophosphate resistance in Lucilia cuprina
Insect Molecular Biology 5: 211