Research
Research groups
Member of:
Research interests
- Vitamin B12 metabolism
- Biosynthesis of natural products
Research projects
Completed projects
Researchers:
Sponsor: Biotechnology & Biological Sciences Research Council
Publications
36 publications
Page 4 of 4
D. Heldt, A.D. Lawrence, M. Lindenmeyer, E. Deery, P. Heathcote, S.E. Rigby & M.J. Warren,
2005, Biochemical Society Transactions, 33(4), 815-819
DOI: 10.1042/bst0330815
Type: article
S. Frank, A.A. Brindley, E. Deery, P. Heathcote, A.D. Lawrence, H.K. Leech, R.W. Pickersgill & M.J. Warren,
2005, Biochemical Society Transactions, 33(4), 811–814
DOI: 10.1042/bst0330811
Type: article
Helen M. McGoldrick, Charles A. Roessner, Evelyne Raux, Andrew D. Lawrence, Kirsty J. McLean, Andrew W. Munro, Stefano Santabarbara, Stephen E.J. Rigby, Peter Heathcote, A. Ian Scott & Martin J. Warren,
2005, Journal of Biological Chemistry, 280(2), 1086-1094
Type: article
Mark Burkitt, Clare Jones, Andrew Lawrence, Peter Wardman, Chris Cooper, Mike Wilson & Victor Darley-Usmar,
2004, Biochemical Society Symposium, 71, 97–106
DOI: 10.1042/bss0710097
Type: article
C.M. Jones, A. Lawrence, P. Wardman & M.J. Burkitt,
2003, Biochemical Society Transactions, 31(6), 1337-1339
DOI: 10.1042/bst0311337
Type: article
Clare M. Jones, Andrew Lawrence, Peter Wardman & Mark J. Burkitt,
2002, Free Radical Biology and Medicine, 32(10), 982-990
Type: article
Pagination
Biography
Andrew Lawrence is a Lecturer in Biomedical Sciences at the University of Southampton. Andrew obtained his BSc in Biochemistry and Chemistry (double Hons) from the University of Southampton in 2003. He then studied for a PhD at Queen Mary University of London under the supervision of Professor Martin Warren (2003-2007). Following his PhD he moved to the University of Kent where took up a postdoctoral research position (2007-2018). He was appointed Lecturer in Molecular Biosciences at the University of Kent in 2019. Throughout this period his research has focused on the enzymology of redox active proteins and the elucidation and manipulation of biosynthetic pathways involved in tetrapyrrole biosynthesis.