Ian Graham’s interests include how plants make and breakdown various metabolites, how these processes are controlled and how they impact on plant growth. He has used biochemical genetics to dissect the main metabolic pathways controlling oil mobilisation in Arabidopsis seed and provided new insight into how a lipid based signal controls seed germination. He has used similar approaches to investigate the synthesis of bioactive compounds in two of the world’s major medicinal crops. This has led to new understanding of how genome rearrangement has shaped the evolution of plant metabolism. The discovery of a 10 gene cluster responsible for the production of the anti-cancer compound noscapine in opium poppy provided the tools for molecular breeding of new commercial varieties. The discovery of a novel P450 – oxidoreductase gene fusion described the last unknown step in synthesis of morphine and codeine. Characterisation and genetic mapping of traits responsible for production of artemisinin in Artemisia annua has enabled development of F1 hybrid seed that can deliver a robust source of this vital anti-malarial drug for the developing world.
Professional position
- Weston Chair of Biochemical Genetics, Centre for Novel Agricultural Products, University of York
Subject groups
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Molecules of Life
Biochemistry and molecular biology
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Patterns in Populations
Plant sciences / botany
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Other
Public engagement, Science policy