DrThomasOuldridge

Faculty of Engineering, Department of Bioengineering

Reader in Biomolecular Systems

Contact

Location

4.04Royal School of MinesSouth Kensington Campus

Summary

I am a Royal Society University Research Fellow in the Bioengineering Department, where I lead the "Principles of Biomolecular Systems" group.

My group probes the fundamental principles underlying complex biochemical systems through theoretical modelling, simulation and experiment. In particular, We focus on the interplay between the detailed biochemistry and the overall output of a process such as sensing, replication or self-assembly. We're inspired by natural systems, and aim to explore the possibilities of engineering artificial analogs. For more details, including open positions and recent work, please refer to our group page.

Our take on the most recent developments in the field can be found in the blog that we run.

Publications

Journals

Qureshi BJ, Juritz J, Poulton JM, et al.Qureshi BJ, Juritz J, Poulton JM, Beersing-Vasquez A, Ouldridge TE close, 2023, A universal method for analyzing copolymer growth, Journal of Chemical Physics, Vol:158, ISSN:0021-9606, Pages:1-22

Seet I, Ouldridge TE, Doye JPK, 2023, Simulation of reversible molecular mechanical logic gates and circuits, Physical Review E: Statistical, Nonlinear, and Soft Matter Physics, Vol:107, ISSN:1539-3755

Ouldridge TE, Wolpert DH, 2022, Thermodynamics of deterministic finite automata operating locally and periodically

Author Web Link

Ouldridge T, Hertel S, Spinney R, et al.Ouldridge T, Hertel S, Spinney R, Xu S, Morris R, Lee L close, 2022, The stability and number of nucleating interactions determine DNA hybridisation rates in the absence of secondary structure, Nucleic Acids Research, Vol:50, ISSN:0305-1048, Pages:7829-7841

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