Example Projects

2014

• 3D Printing of Bacteria
• Applications of cell-cell communication to Synthetic Biology
• Bioengineering red blood cells using gene editing techniques
• Coiled-coil directed photosynthetic protein self-assemblies and programmable nano-reactor systems
• Communication between live and synthetic cells
• Communication between natural bacteria and artificial protocells
• Controlling extrinsic noise in mammailiancells
• Creating Logic-Gated Synthetic Antibodies to bring Boolean Protein to Medicine
• Designed components for transcriptional control in cells
• Development of SimCells as building blocks for synthetic blocks for synthetic biology
• DNA-Templated assembly of dynamic α-helical peptide barrels
• DNA-Templated Assembly of the Bacterial Flagellar Motor’s Torque-Generating Ring
• Electronic interface to control cell and community metabolism
• Embedded Cellular Controls
• Engineering a synthetic phage
• Engineering Logic gates in bacteria using two-component signalling
• Engineering non-replicative bacteriophage-based payload systems for pathogen elimination.
• Engineering Switches for Plant Growth Promotion in the Rhizosphere
• Gene Regulatory Networks: components and control
• Inducing Recombination in Plants Using Genome Editing Techniques
• In-silico design of synthetic gene regularory networks for feedback control system implementation
• Investigation of in vitro protein reconstruction directionality control
• Light-activated gene expression for inducible communication in aqueous droplet networks
• Measuring Molecules:Developing a Nanometre-Scale Ruler Using FRET
• Modelling Gene Expression in a Homogenous Bacterial Population
• Orthogonal Transcription Factors using Designed TALEs and Coliled Coils
• Resource allocation in synthetic gene networks
• Re-wiring plant signalling pathways to enhance stress tolerance
• Simulation of Microbial Community in a microfluidic device
• Synthetic  Microbial Communities
• Synthetic Metabolons
• Synthetically Regulated Nitrogen Fixing in Association with Cereals
• The de novo design of coiled-coil-based transcriptional regulators
• Using in silico approaches to design evolutionarily robust network topologies

2015

• Development of reporter strains for bacterial electro-physiology
• 3D Printing of Living Cells using Droplet Networks
• 3D Printing of Living Cells using Droplet Networks
• Accelerated directed evolution of proteins using phages
• Active DNA Nanosystems in non aqueous solvents
• Adaptive Genetic Logic Gates
• Analogue gates for control applications
• Artificial Ribosomes - programmable chemical synthesis using DNA templates
• Characterising the binding properties of RNA aptamers to short peptides
• Construction and Laboratory evolution of artificial oxidoreductases
• Continuous Directed Evolution in MFC System     
• Control of Cell Population and Synthetic Communities
• Design and construction of active DNA-templates for alpha-helical barrels.
• Designing SimCells from Cyanobacteria for the Production of Molecular Oxygen
• Developing glycan-functionalised carbon nanodots to investigate cell type signalling during root nodulation.
• Development of an integrated synthetic biology/chemical engineering design pipeline
• Directed Evolution in Non-Living Systems
• Directed evolution of artificial peroxidases
• Dissecting noise in gene expression systems for synthetic biology
• Engineering a synthetic gut model to explore gut microbial interactions/ Synthetic Communities
• Engineering new DNA recognition elements using the DsdS subunit from type I restriction endonucleases
• Engineering re-writable memory in T cells for immunotherapy
• Evaluating the biocatalyst potential of a novel enzyme
• Formulation and testing of Synthetic Vaccines
• Improving gene therapy efficiency: linking Cas-9 and homologous recombination.
• In silico simulation and analysis of gene expression variance between individual cells of a homogenous population.
• In vitro chemical ligation of modified DNA
• Intracellular Selex to study Stress -Related Translation
• Investigating noise in gene expression using single molecule tracking
• Membrane-inserting SpyCatcher for virus-like particle vaccines
• Office adjacent to M116, School of Life Sciences.
• On the development of synthetic cartilage
• Re-engineering a natural Diels-Alderase for the production of new antibiotics
• RNA-Inducible CRISPR-Cas9 transcription regulators
• simCell Toluene Biosensor
• Spatial organisation of enzymes using virus -like particles (VLP)
• Synthetic Enzyme Assemblies
• Systematic analysis of the ability of protein transduction domains to export cargo proteins from cells, and to deliver them into adjacent cells
• Utilisation of Membrane Voltage for Synthetic Biology Genetic Circuits

2016

• 3D Bioprinted Self-Polymerising Bacterial Bioreactors
• CRISPR/dCas9 Synergistic Activation Mediators (SAM) as a tool for modulating gene expression in human induced pluripotent stem cells (hiPS)
• Design and Evaluation of novel Diels-Alderases for use in Industry
• Developing 3D Vascularized Tissues through Inputted Microchanel Flow
• Developing synthetic biology tools to engineer the production of valuable compounds in the alga Euglena gracillis
• Development of Biosensors for diagnosis and drug delivery in the human gut
• Engineering Antibiotics from Abyss
• Engineering Genetic Amplifiers
• Engineering multistability in microbial physiology
• Engineering new microbial rhodopsins for novel 21sat century sensor
• Engineering receptors for optimised T cell dose responses
• Feedback design and modelling using Srna
• Heterologous expression and engineering of an industrially important macrolide biosynthetic pathway
• Impact of cellular trade-offs on synthetic genetic circuits across cell populations
• In vitro prototyping of modular polyketide synthases
• Investigations into 3D Printed Dropet Networks
• Learning and verifying uncertain models of Chemical Reaction
• Molecular simulations and the Design of Gated Nanopores
• Network to network interaction
• Packing in 3D printed droplet networks
• Protein Design in the cell: towards synthetic proteomes
• Study of link between bacterial competition and diversity using 3D bacterial printing technology
• SynBac: Synthetic Baculovirus for Next-Generation Gene Therapy
• Synthetic Tissues from printed droplet networks
• Towards a Comprehensive Theory of Feedback Control from Chemical Reaction Networks
• Towards Overcoming Antimicrobial Resistance using Synthetic Biology
• Turning immune cell reactivity using synthetic receptors

2017

• Molecules and Origins of Life
• Rotary Molecular Motors
• Synthetic Tissues from printed droplets networks
• Gentically engineering machines for intelligent cell stimulation and early warning
• Engineering new microbial rhodopsins for novel 21st century sensor materials for broad- banded , molecular scale wavelength selective detectopm/ Synthetic Biology
• Synthetic reconstitution of mitotic switch
• Development of encapsulated biosensors for diagnosis and drug delivery in human gut
• DNA Nanostructures
• Towards Overcoming Antimicrobial Resistance Using Synthetic Biology/ Schofield Group Research
• Developing Synthetic Biology tools to engineer the production of valuable compound in the alga Euglena gracillis
• Engineering gentic amplifiers for the detection of carcingogens in human gut
• Molecular Simulation and Design of Gated Nanopores
• Re-engineering photosynthesis for improved crop yield
• Development of SimCells as smart bioparticles under control of aspirin
• The design of DNA nanostructures using computational techniques
• Microbial Social Evolution
• Shaping the steady-state behaviour of a biological model
• Feedback design and modeling using post-transcriptional regulation
• Network-to Nework interaction
• Understanding and engineering microbial communities 
• Precise reduction of models of chemical reaction networks
• Real Time Broadcast control of gene expression of a population of cells
• Rewiring T cells for dose discrimination using synthetic receptors