Projects per year
Abstract / Description of output
Bacterial biofilms are usually assumed to originate from individual cells deposited on a surface. However, many biofilm-forming bacteria tend to aggregate in the planktonic phase so that it is possible that many natural and infectious biofilms originate wholly or partially from pre-formed cell aggregates. Here, we use agent-based computer simulations to investigate the role of pre-formed aggregates in biofilm development. Focusing on the initial shape the aggregate forms on the surface, we find that the degree of spreading of an aggregate on a surface can play an important role in determining its eventual fate during biofilm development. Specifically, initially spread aggregates perform better when competition with surrounding unaggregated bacterial cells is low, while initially rounded aggregates perform better when competition with surrounding unaggregated cells is high. These contrasting outcomes are governed by a trade-off between aggregate surface area and height. Our results provide new insight into biofilm formation and development, and reveal new factors that may be at play in the social evolution of biofilm communities.
Original language | English |
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Article number | e0149683 |
Journal | PLoS ONE |
Volume | 11 |
Issue number | 3 |
DOIs | |
Publication status | Published - 2 Mar 2016 |
Projects
- 1 Finished
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Design Principles for New Soft Materials
Cates, M., Allen, R., Clegg, P., Evans, M., MacPhee, C., Marenduzzo, D. & Poon, W.
7/12/11 → 6/06/17
Project: Research
Datasets
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Data accompanying "Shaping the Growth Behaviour of Biofilms Initiated from Bacterial Aggregates, 2013-2016" (Submitted paper).
Melaugh, G. (Creator) & Allen, R. (Creator), Edinburgh DataShare, 10 Feb 2016
DOI: 10.7488/ds/1340
Dataset
Profiles
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Gavin Melaugh
- School of Physics and Astronomy - Chancellor's Fellow
Person: Academic: Research Active (Research Assistant)