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Details of Grant 

EPSRC Reference: EP/K039083/1
Title: An New Frontier in Design: The Simulation of Open Engineered Biological Systems
Principal Investigator: Wright, Professor NG
Other Investigators:
Pancholi, Dr K Bridgens, Dr BN Roskilly, Professor AP
Curtis, Professor TP Rushton, Professor S Wipat, Professor A
Chen, Professor J Zuliani, Professor P Hallinan, Dr JS
McGough, Dr AS Watson, Professor P Wilkinson, Professor DJ
Davenport, Dr RJ
Researcher Co-Investigators:
Project Partners:
Northumbrian Water Group plc
Department: Sch of Engineering
Organisation: Newcastle University
Scheme: Standard Research
Starts: 28 October 2013 Ends: 31 August 2019 Value (£): 5,577,007
EPSRC Research Topic Classifications:
Complexity Science Synthetic biology
Water Engineering
EPSRC Industrial Sector Classifications:
Water
Related Grants:
Panel History:
Panel DatePanel NameOutcome
06 Mar 2013 Frontier Engineering Interview Panel Announced
Summary on Grant Application Form
Biology will lie at the heart of many 21st century technologies to sustainably address the numerous challenges facing societies such as waste, energy, water, healthcare, new chemicals and materials, and agriculture. This ambitious project seeks to develop a suite of universal principles and models for the scalable simulation of open biological systems thereby allowing the engineering of new functionalities offered by natural or synthetic, mainly micro-, organisms for the benefit of mankind.

We live in a world that is increasingly urbanising and populated putting many pressures on the globe and its natural resources. One of the biggest challenges is sustaining global health, prosperity and well-being in a way that does not harm societies requiring these benefits nor the earth's natural resources. In the last two centuries, engineering has been central in providing the infrastructure and resources responsible for these societal gains. The engineering challenge in the 21st century is to continue to make these, and new, provisions for more people in a more sustainable way.

Thomas Tredgold, the first President of the Institute of Civil Engineers, defined engineering as "the art of directing the great sources of Power in Nature for the use and benefit of mankind". Engineering has expanded as it has sought and exploited new sources of Power in Nature and new concepts and tools by which said sources can be manipulated. Many believe that Biology is the next source of Power and that Engineering Biology it will be central to our goal of generating a new suite of intrinsically sustainable technologies. However, there is a substantial gap between rhetoric and reality in many accounts of the application of engineering biology. We will only open up this frontier if we are a brutally honest about the limitations, astute in our analysis of the bottlenecks and effective in innovations to obviate them. Though this is a contemporary challenge, it is something engineers have always done, using mathematical models and scientific principles to winnow the pipe dreams from the awesome but achievable (Rankine, 1855).

One of the greatest limitations in biology is taking what is possible in the test-tube and making it a reality in the reactor or environment; using relatively cheap resources and in the face of a large and highly diverse natural microbial population. In this project, we seek to use the best scientific principles and theories to develop a suite of universal principles and models for the scalable simulation of open biological systems. These models will allow the engineering design of new functionalities offered by natural or synthetic organisms for the benefit of mankind for a range of technologies addressing a range of different challenges.

Key Findings
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Organisation Website: http://www.ncl.ac.uk