A new technique for manipulating small cell structures for use in a range of biotechnical applications including the production of biofuels and vaccines has been developed by a team of scientists led by the University of Kent.
The researchers did this by creating an improved system to allow for the synthesis of nano-reactors within cells that can be used to help convert sugar into fuel. The same technology can be used to coat nano-particles with proteins so that they can be used to generate vaccines.
The researchers redesigned and engineered the tiny bacterial cellular structures – known as organelles – so they can be more easily manipulated and deployed to turn bacteria into 'cell factories'.
The organelles, which are approximately 100 nm in diameter and known as bacterial microcompartments (BMCs), naturally house specific metabolic pathways, essentially a linked series of chemical reactions. Although BMCs have huge potential in the area of biotechnology, a key obstacle to their utilisation is the difficulty of targeting new pathways and processes into the BMC in a controllable fashion.
To address this problem, researchers at Kent's School of Biosciences redesigned a key surface component of the BMC that enables them to not only internalise proteins within the BMC but also display them on the surface of the organelle.
To achieve this the Kent researchers, working with others from University College London, the University of Bristol and Queen Mary University of London, utilised a pair of interacting peptides, developed at Bristol, to target proteins to these intracellular organelles. This technology facilitated the display of proteins on the surface of BMCs.
The use of synthetic biology then allowed the researchers to remodel one of the components of the BMC shell which in turn allowed them to use the same technology to internalise proteins within BMCs.
Kent's Dr Matt Lee, lead scientist on the project, said: 'This breakthrough could open up the possibility of utilising these organelles for a wide variety of applications, including the generation of biofuels, as well as for drug delivery and vaccine development. It demonstrates the power of synthetic biology to help achieve useful applications in biotechnology.'
The research, entitled De novo targeting to the cytoplasmic and luminal side of bacterial microcompartments (Matthew Lee, Ian Brown, Martin Warren, University of Kent; Judith Mantell, Paul Verkade, Derek N. Woolfson, University of Bristol; Richard W. Pickersgill, Queen Mary University of London; Stefanie Frank, University College London) is published in the journal Nature Communications. See: https://www.nature.com/articles/s41467-018-05922-x.pdf
It was funded by the Biotechnology and Biological Sciences Research Council.
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Notes to Editors
Established in 1965, the University of Kent – the UK's European university – now has almost 20,000 students across campuses or study centres at Canterbury, Medway, Tonbridge, Brussels, Paris, Athens and Rome.
It has been ranked 22nd in the Guardian University Guide 2018 and in June 2017 was awarded a gold rating, the highest, in the UK Government's Teaching Excellence Framework (TEF).
In the Times Higher Education (THE) World University Rankings 2015-16, it is in the top 10% of the world's leading universities for international outlook and 66th in its table of the most international universities in the world. The THE also ranked the University as 20th in its 'Table of Tables' 2016.
Kent is ranked 17th in the UK for research intensity (REF 2014). It has world-leading research in all subjects and 97% of its research is deemed by the REF to be of international quality.
In the National Student Survey 2016, Kent achieved the fourth highest score for overall student satisfaction, out of all publicly funded, multi-faculty universities.
Along with the universities of East Anglia and Essex, Kent is a member of the Eastern Arc Research Consortium (http://www.kent.ac.uk/about/partnerships/eastern-arc.html).
The University is worth £0.7 billion to the economy of the south east and supports more than 7,800 jobs in the region. Student off-campus spend contributes £293.3m and 2,532 full-time-equivalent jobs to those totals.
Kent has received two Queen's Anniversary prizes for Higher and Further Education.
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http://dx.doi.org/10.1038/s41467-018-05922-x
