Dr David Jamieson
Post-Doctoral Research Associate
Ysgol Fferylliaeth a Gwyddorau Fferyllol
- Ar gael fel goruchwyliwr ôl-raddedig
Trosolwyg
Research Associate with Oliver Castell
Cyhoeddiad
2024
- Silver, K. L. et al. 2024. 3D-printed microfluidic-microwave device for droplet network formation and characterisation. Lab on a Chip 24, pp. 5101-5112. (10.1039/D4LC00387J)
- Dimitriou, P., Li, J., Jamieson, W. D., Schneider, J. J., Castell, O. K. and Barrow, D. A. 2024. Manipulation of encapsulated artificial phospholipid membranes using sub-micellar lysolipid concentrations. Communications Chemistry 7(1), article number: 120. (10.1038/s42004-024-01209-z)
- Schneider, J. J. et al. 2024. Kauffman Model with spatially separated ligation and cleavage reactions. Presented at: Italian Workshop on Artificial Life and Evolutionary Computation, Venice, 6-8 September 2023 Presented at Villani, M., Cagnoni, S. and Serra, R. eds.Artificial Life and Evolutionary Computation. WIVACE 2023, Vol. 1977. Communications in Computer and Information Science Cham, Switzerland: Springer pp. 141-160., (10.1007/978-3-031-57430-6_12)
- Schneider, J. J. et al. 2024. Percolation breakdown in binary and ternary monodisperse and polydisperse systems of spherical particles. Presented at: Italian Workshop on Artificial Life and Evolutionary Computation, Venice, 6-8 September 2023 Presented at Villani, M., Cagnoni, S. and Serra, R. eds.Artificial Life and Evolutionary Computation. WIVACE 2023, Vol. 1977. Communications in Computer and Information Science Cham, Switzerland: Springer pp. 161-174., (10.1007/978-3-031-57430-6_13)
2022
- Baxani, D. K., Jamieson, W. D., Barrow, D. A. and Castell, O. K. 2022. Encapsulated droplet interface bilayers as a platform for high-throughput membrane studies. Soft Matter 18, pp. 5089-5096. (10.1039/D1SM01111A)
- Li, J. et al. 2022. Building programmable multicompartment artificial cells incorporating remotely activated protein channels using microfluidics and acoustic levitation. Nature Communications 13(1), article number: 4125. (10.1038/s41467-022-31898-w)
2021
- Pope, J. R. et al. 2021. Association of fluorescent protein pairs and it's significant impact on fluorescence and energy transfer. Advanced Science 8(1), article number: 2003167. (10.1002/advs.202003167)
2020
- Thomas, S. K. et al. 2020. Site-specific protein photochemical covalent attachment to carbon nanotube side walls and its electronic impact on single molecule function. Bioconjugate Chemistry 31(3), pp. 584-594. (10.1021/acs.bioconjchem.9b00719)
- Li, J., Baxani Kamal, D., Jamieson, W. D., Xu, W., Garcia Rocha, V., Barrow, D. A. and Castell, O. K. 2020. Formation of polarised, functional artificial cells from compartmentalised droplet networks and nanomaterials, using one-step, dual-material 3D-printed microfluidics. Advanced Science 7(1), article number: 1901719. (10.1002/advs.201901719)
2019
- Worthy, H. L. et al. 2019. Positive functional synergy of structurally integrated artificial protein dimers assembled by Click chemistry. Communications Chemistry 2, article number: 83. (10.1038/s42004-019-0185-5)
2018
- Baxani, D. K., Jamieson, W. D., Barrow, D. A. and Castell, O. K. 2018. An encapsulated droplet interface bilayer array for the high-throughput optical measurement of lipid membranes with single bilayer resolution. Biophysical Journal 114(3), pp. 686A. (10.1016/j.bpj.2017.11.3699)
2016
- Baxani, D. K., Morgan, A. J. L., Jamieson, W. D., Allender, C. J., Barrow, D. A. and Castell, O. K. 2016. Bilayer networks within a hydrogel shell: A robust chassis for artificial cells and a platform for membrane studies. Angewandte Chemie International Edition 55(46), pp. 14240-14245. (10.1002/anie.201607571)
- Morgan, A. J. L. et al. 2016. Simple and versatile 3D printed microfluidics using fused filament fabrication. PLoS ONE 11(4), article number: e0152023. (10.1371/journal.pone.0152023)
Articles
- Silver, K. L. et al. 2024. 3D-printed microfluidic-microwave device for droplet network formation and characterisation. Lab on a Chip 24, pp. 5101-5112. (10.1039/D4LC00387J)
- Dimitriou, P., Li, J., Jamieson, W. D., Schneider, J. J., Castell, O. K. and Barrow, D. A. 2024. Manipulation of encapsulated artificial phospholipid membranes using sub-micellar lysolipid concentrations. Communications Chemistry 7(1), article number: 120. (10.1038/s42004-024-01209-z)
- Baxani, D. K., Jamieson, W. D., Barrow, D. A. and Castell, O. K. 2022. Encapsulated droplet interface bilayers as a platform for high-throughput membrane studies. Soft Matter 18, pp. 5089-5096. (10.1039/D1SM01111A)
- Li, J. et al. 2022. Building programmable multicompartment artificial cells incorporating remotely activated protein channels using microfluidics and acoustic levitation. Nature Communications 13(1), article number: 4125. (10.1038/s41467-022-31898-w)
- Pope, J. R. et al. 2021. Association of fluorescent protein pairs and it's significant impact on fluorescence and energy transfer. Advanced Science 8(1), article number: 2003167. (10.1002/advs.202003167)
- Thomas, S. K. et al. 2020. Site-specific protein photochemical covalent attachment to carbon nanotube side walls and its electronic impact on single molecule function. Bioconjugate Chemistry 31(3), pp. 584-594. (10.1021/acs.bioconjchem.9b00719)
- Li, J., Baxani Kamal, D., Jamieson, W. D., Xu, W., Garcia Rocha, V., Barrow, D. A. and Castell, O. K. 2020. Formation of polarised, functional artificial cells from compartmentalised droplet networks and nanomaterials, using one-step, dual-material 3D-printed microfluidics. Advanced Science 7(1), article number: 1901719. (10.1002/advs.201901719)
- Worthy, H. L. et al. 2019. Positive functional synergy of structurally integrated artificial protein dimers assembled by Click chemistry. Communications Chemistry 2, article number: 83. (10.1038/s42004-019-0185-5)
- Baxani, D. K., Jamieson, W. D., Barrow, D. A. and Castell, O. K. 2018. An encapsulated droplet interface bilayer array for the high-throughput optical measurement of lipid membranes with single bilayer resolution. Biophysical Journal 114(3), pp. 686A. (10.1016/j.bpj.2017.11.3699)
- Baxani, D. K., Morgan, A. J. L., Jamieson, W. D., Allender, C. J., Barrow, D. A. and Castell, O. K. 2016. Bilayer networks within a hydrogel shell: A robust chassis for artificial cells and a platform for membrane studies. Angewandte Chemie International Edition 55(46), pp. 14240-14245. (10.1002/anie.201607571)
- Morgan, A. J. L. et al. 2016. Simple and versatile 3D printed microfluidics using fused filament fabrication. PLoS ONE 11(4), article number: e0152023. (10.1371/journal.pone.0152023)
Conferences
- Schneider, J. J. et al. 2024. Kauffman Model with spatially separated ligation and cleavage reactions. Presented at: Italian Workshop on Artificial Life and Evolutionary Computation, Venice, 6-8 September 2023 Presented at Villani, M., Cagnoni, S. and Serra, R. eds.Artificial Life and Evolutionary Computation. WIVACE 2023, Vol. 1977. Communications in Computer and Information Science Cham, Switzerland: Springer pp. 141-160., (10.1007/978-3-031-57430-6_12)
- Schneider, J. J. et al. 2024. Percolation breakdown in binary and ternary monodisperse and polydisperse systems of spherical particles. Presented at: Italian Workshop on Artificial Life and Evolutionary Computation, Venice, 6-8 September 2023 Presented at Villani, M., Cagnoni, S. and Serra, R. eds.Artificial Life and Evolutionary Computation. WIVACE 2023, Vol. 1977. Communications in Computer and Information Science Cham, Switzerland: Springer pp. 161-174., (10.1007/978-3-031-57430-6_13)
Ymchwil
Overall my interests lie at the interface between microbiology, biophysics, biochemistry infectious disease and healthcare.
I can help you with Microscopy, Matlab, microbiology, CAD and 3D printing among others.
Bywgraffiad
I undertook my PhD in biophysical chemistry at the University of Bath where I developed fluorescence based nanoscale lipid / polymer biosensors for the rapid detection of bacterial haemolysins. In particular I focused on a group of peptides from S.aureus called phenol soluble modulins.
On completion of my PhD I undertook a position at Public Health England where I worked towards the development of a microfluidic phenotypic assay for the rapid detection of carbapenemases in the ESKAPEE group of bacterial pathogens.
Outside work I like to climb, swim, walk, play video games, code and watch rugby.