Browsing publications by Dr Christine Bleasdale

Newcastle AuthorsTitleYear
Professor Bernard Golding
Martine Barnes
Dr Christine Bleasdale
Dr Alistair Henderson
Dong Jiang
et al.
Modeling the formation and reactions of benzene metabolites2010
Dr Alistair Henderson
Dr Christine Bleasdale
Professor Bernard Golding
Evidence for the formation of Michael adducts from reactions of (E,E)-muconaldehyde with glutathione and other thiols2005
Martine Barnes
Dr Christine Bleasdale
Emeritus Professor William Clegg
Professor William Watson
Professor Bernard Golding
et al.
Reactions of benzene oxide with thiols including glutathione2005
Dr Alistair Henderson
Dr Christine Bleasdale
Emeritus Professor William Clegg
Professor Bernard Golding
2,6-Diarylaminotetrahydropyrans from Reactions of Glutaraldehyde with Anilines: Models for Biomolecule Cross-Linking2004
Dr Alistair Henderson
Esra Mutlu
Dr Christine Bleasdale
Emeritus Professor William Clegg
Professor Richard Henderson
et al.
Trapping of benzene oxide-oxepin and methyl-substituted derivatives with 4-phenyl- and 4-pentafluorophenyl-1,2,4-triazoline-3,5-dione2002
Professor Roger Griffin
Dr Christine Arris
Dr Christine Bleasdale
Professor Alan Calvert
Professor Nicola Curtin
et al.
Resistance-modifying agents. 8. Inhibition of O6-alkylguanine-DNA alkyltransferase by O6-alkenyl-, O6-cycloalkenyl-, and O6-(2-oxoalkyl)guanines and potentiation of temozolomide cytotoxicity in vitro by O6-(1-cyclopentenylmethyl) guanine2000
Daping Zhang
Dr Christine Bleasdale
Professor Bernard Golding
Professor William Watson
Synthesis of enantiopure isoprene epoxides from (s)-lactic acid via 'dispoke' intermediates2000
Dr Christine Arris
Dr Christine Bleasdale
Professor Alan Calvert
Professor Nicola Curtin
Professor Bernard Golding
et al.
Mechanism-based inhibition of O-6-methylguanine-DNA methyltransferase.1996
Dr Christine Arris
Dr Christine Bleasdale
Professor Alan Calvert
Professor Nicola Curtin
Professor Bernard Golding
et al.
Probing the active site and mechanism of action of O-6-methylguanine-DNA methyltransferase with substrate-analogs to (O-6-substituted guanines)1994