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Possibilities Open with Plant Enzymes Discovery
Aug 18 2017 Read 616 Times
A team at the John Innes Centre, which has unearthed a wealth of previously undescribed plant enzymes, hope that the discovery will unlock a rich new vein of natural products including potential drug leads.
The research reveals new insights into the bio-production of sesterterpenoids, a rare and largely unexplored class of chemicals. Prior to this work at the John Innes Centre the majority of the approximately 1,000 known sesterterpenoids have been found in terrestrial fungi and marine sponges, with only 60-70 from plants.
The team led by Professor Anne Osbourn used genome mining technology to uncover a suite of enzymes, called sesterterpene synthases, by searching the genomes of 55 different plant species.
Professor Osbourn said, “What’s fascinating is that the enzymes from plants are quite different to those from fungi, but in some cases they make similar molecules. It looks as though plants have independently arrived at their own way of making these molecules; they have ‘worked it out for themselves’.”
The next step is to widen our search for genes that encode plant sesterterpene synthases in order to get a fuller picture of the spectrum of chemical diversity of sesterterpenoids in other plant species, and to harness these enzymes to make compounds that can be evaluated for use as new drugs and medicines.
The project will continue to use transient plant expression technology developed by Professor George Lomonossoff at the John Innes Centre in which plants can be used to produce a range of pharmacologically active proteins.
Professor Osbourn continues, “This is a flagship paper in terms of uncovering a swathe of new enzymes in plants to make chemicals that have never been accessed before.”
This work, which is funded by the US-based National Institutes of Health (NIH) as part of the Genomes to Natural Products Network, was carried out in collaboration with researchers at the University of Wageningen in the Netherlands, the University of Cambridge in the UK, and the University of California, Davis (US).
Published in PNAS
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