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Commercial challenges, cutting edge solutions
Industrial biotechnology (IB) harnesses cellular and biomolecular processes to develop technologies and bio-based products in numerous industry sectors such as chemicals, food and drink, materials and energy.
The University of Edinburgh has world-class research capabilities in biological sciences, chemistry, engineering, geosciences, informatics, mathematics and physics and works with commercial partners to deliver innovative IB solutions. Together we are:
Conducting cutting-edge research in IB
Creating novel technologies for IB
Applying these technologies commercially in partnership with industry
Enhancing the growth of existing companies and powering the creation of new spin-outs
Delivering advanced multidisciplinary training in IB
For businesses, IB expertise at Edinburgh can provide environmental benefits, promote resource conservation, deliver innovative new products, improve performance and reduce costs. Some examples of our research strengths and its impact are highlighted opposite. Contact us to find out more about our innovative research and how it can benefit your business.
Key areas of research
Production of chemicals from sustainable sources
Alternative feedstocks for high value chemical manufacture e.g. lignocellulose
Mining extremophiles for novel enzymes and biomolecules
Bioremediation
Plants & microorganisms as factories for product synthesis
Biosynthesis of high value plant natural products
Identification of plant cell wall polymers and novel cell wall enzymes
Viral vectors and plant systems for production of proteins and bio-therapeutics
Engineering organisms through synthetic and systems approaches
Computational modelling tools to design biological pathways and circuits
Robust methods for automated assembly of large DNA molecules
Designing and building biosensors for detection of contaminants
Synthetic genomics
Biocatalysis using improved enzymesDr Dominic Campopiano has been working with global pharma Dr Reddy’s Laboratories. Using evolution and selection techniques, he has improved the activity of a key enzyme enabling the company to produce a range of chiral intermediates.
Sustainable materialsProfessor Stephen Fry has been working with SME CelluComp to characterise their biocomposite materials. This has enabled the company to modify their production processes and produce tailor-made material for different applications.
Circular EconomyDr Louise Horsfall is collaborating with Diageo, a global leader in beverage alcohol, to produce copper nanoparticles from distillery waste streams. In addition to environmental benefits, this work will conserve resources and reduce operating costs.
IBioIC Exemplar projectProfessor Gary Loake is working with GSK, in a project funded by IBioIC to develop a sustainable biological process that replaces synthetic chemical routes to esterification. Esterification is a key technology enabling purification of fine chemicals from aqueous environments. This research can lead to cleaner, greener routes to antibiotic production.
This publication can be made available in alternative formats on request. The University of Edinburgh is a charitable body, registered in Scotland, with registration number SC005336.Photographs © Peter Tuffy Photography
Designed by Graphic Design Services (LTW), The University of Edinburgh www.ed.ac.uk/is/graphic-design
Social, ethical & economic impacts of advanced IB technologies
Responsible research and innovation
Value chain analysis
(Re)Integration of innovation and industrial policy
Stakeholder engagement and public acceptability
For more information contact:
Dr Lorraine KerrCommercial Relations Executive
Phone: +44(0)131 651 9070Mobile: +44(0)7833 444 961
Edinburgh Research and Innovation Ltd is the University of Edinburgh’s research and commercialisation office. We engage with and support industry in a variety of ways:
• Technology licensing
• Consultancy
• Collaborative Research
• Studentships
• Strategic alliances
• Access to facilities/services
High throughput screening and analytical tools
On-bead screening platforms for biomolecule identification and characterisation
Dynamic covalent chemistry for generation of unique combinatorial libraries
Novel Mass Spectrometry methods for analysing proteins and biomolecules
Advanced sequencing and bioinformatics
Mining extremophiles Professor Charles Cockell studies microorganisms living in extreme environments. In collaboration with Cleveland Potash Ltd, he has identified microbes involved in soil and coastal erosion that are similar to those found in South African gold mines. Further characterisation of these could lead to the identification of new bacterial methods for mining economically important minerals from increasingly low-grade ores.
Synthetic genome assembly and responsible innovationDr Chris French is engineering novel biological systems using modular ‘parts’ and standardised assembly methods. In collaboration with SME Genabler, they have developed and optimised a large DNA assembly technology. Prof Joyce Tait is providing tailored advice to Genabler regarding current and future projects and developing a corporate culture strategy for responsible innovation.