Researchers at Heriot-Watt University and Plymouth Marine Laboratory in collaboration with Edinburgh-based company Ingenza Ltd are searching for new enzymes for use as manufacturing tools in the pharmaceutical and agrochemical industries. The research project, funded by the Biotechnology and Biological Sciences Research Council (BBSRC) and the Technology Strategy Board, uses biochemical techniques to identify potentially useful enzymes in microbes that are found in the sea.

This work brings together important expertise from industry and academic researchers. The value in this approach is to take specific knowledge and expertise in biochemistry and molecular biology, coupled with novel and diverse marine microbes, right through to high-yielding, scalable and economic manufacturing processes. These processes use enzyme catalysts from the marine microbes, which lead to greener and cleaner manufacturing methods.

Microorganisms account for more than 95 per cent of ocean biomass, but relatively little is known about them and their potential applications. The research team's search is for industrially relevant enzymes that will reduce waste and increase productivity in the manufacture of drugs and agrochemicals. The enzymes they seek have the ability to convert compounds that would have previously been waste products in the manufacturing process into the desired product, thereby increasing the efficiency of the process.

Professor Mark Keane, from Heriot-Watt University, said: ’Our approach is to look for microbes which can promote the chemical reactions that we want to use in manufacturing. We then treat the microbes under conditions where they produce the key enzymes in higher yield, which we finally purify. The enzymes then undergo systematic testing to evaluate their activity, which enables us to pinpoint candidates that exhibit the best performance’.

‘We are now identifying microbes with a type of enzyme called an amine oxidase. This could be key to cheaper, more efficient and sustainable process in the synthesis of valuable chemicals by both the pharmaceutical and agrochemical industries.’

Commenting on the findings, BBSRC Chief Executive Professor Doug Kell said: ’Green and White biotechnologies are going to be an increasingly important part of the manufacturing landscape. Looking to biological systems that have been finely tuned by evolution to solve problems, rather than starting from scratch every time, might seem an obvious thing to do. It does, however, in many cases, require the bringing together of particular niche expertise. The value of this collaboration is in the coincidence of knowledge and expertise from academia with the uniquely important business of synthesising a product on a large scale.

’What the outcomes of this project will offer us is the chance to have a significant impact on the sustainability of pharmaceutical and biochemicals production as we move from oil-based to photosynthesis-derived chemistry.’