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Homogenization modelling of antibiotic diffusion and adsorption in viral liquid crystals

Homogenization modelling of antibiotic diffusion and adsorption in viral liquid crystals
Homogenization modelling of antibiotic diffusion and adsorption in viral liquid crystals

Systems of rod-shaped viruses have long been important to the science of living liquid crystals, as their monodispersity and uniform charge make them convenient model systems. Recently, it was shown that, upon the addition of polymers, suspensions of rod-shaped viruses form liquid crystals that are linked with increased tolerance of bacteria against antibiotics. We use homogenization to obtain effective equations describing antibiotic diffusion through these liquid crystals. The analytical results of homogenization are compared with numerical results from an exact microscopic model, showing good agreement and thus allowing us to identify the key parameters behind the process. Our modelling shows that the adsorption plays a key role in increasing antibiotic diffusion time and therefore the presence of nematic rod-shaped viruses may increase antibiotic tolerance through physical mechanisms alone. These results demonstrate the applicability of homogenization as an analytical tool to systems of liquid crystalline viruses, with relatively straightforward extension to more complex problems such as liquid crystalline biofilms, other biological liquid crystals and biological systems with different types of local structural order.

P. aeruginosa, biofilms, diffusion, homogenization, liquid crystals, modelling
2054-5703
221120
van Rossem, M.T.
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Wilks, S.
86c1f41a-12b3-451c-9245-b1a21775e993
Secor, P.R.
d704b3f6-6489-47f6-8dc3-83aeea1fd8f5
Kaczmarek, M.
408ec59b-8dba-41c1-89d0-af846d1bf327
D'Alessandro, G.
bad097e1-9506-4b6e-aa56-3e67a526e83b
van Rossem, M.T.
7f83bf9e-7375-4056-8d30-6e1552e77d9f
Wilks, S.
86c1f41a-12b3-451c-9245-b1a21775e993
Secor, P.R.
d704b3f6-6489-47f6-8dc3-83aeea1fd8f5
Kaczmarek, M.
408ec59b-8dba-41c1-89d0-af846d1bf327
D'Alessandro, G.
bad097e1-9506-4b6e-aa56-3e67a526e83b

van Rossem, M.T., Wilks, S., Secor, P.R., Kaczmarek, M. and D'Alessandro, G. (2023) Homogenization modelling of antibiotic diffusion and adsorption in viral liquid crystals. Royal Society Open Science, 10 (1), 221120, [221120]. (doi:10.1098/rsos.221120).

Record type: Article

Abstract

Systems of rod-shaped viruses have long been important to the science of living liquid crystals, as their monodispersity and uniform charge make them convenient model systems. Recently, it was shown that, upon the addition of polymers, suspensions of rod-shaped viruses form liquid crystals that are linked with increased tolerance of bacteria against antibiotics. We use homogenization to obtain effective equations describing antibiotic diffusion through these liquid crystals. The analytical results of homogenization are compared with numerical results from an exact microscopic model, showing good agreement and thus allowing us to identify the key parameters behind the process. Our modelling shows that the adsorption plays a key role in increasing antibiotic diffusion time and therefore the presence of nematic rod-shaped viruses may increase antibiotic tolerance through physical mechanisms alone. These results demonstrate the applicability of homogenization as an analytical tool to systems of liquid crystalline viruses, with relatively straightforward extension to more complex problems such as liquid crystalline biofilms, other biological liquid crystals and biological systems with different types of local structural order.

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rsos.221120 - Version of Record
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More information

Accepted/In Press date: 22 December 2022
e-pub ahead of print date: 4 January 2023
Published date: 4 January 2023
Additional Information: Publisher Copyright: © 2023 The Authors.
Keywords: P. aeruginosa, biofilms, diffusion, homogenization, liquid crystals, modelling
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Identifiers

Local EPrints ID: 475721
URI: http://eprints.soton.ac.uk/id/eprint/475721
DOI: doi:10.1098/rsos.221120
ISSN: 2054-5703
PURE UUID: 033d49af-52df-4961-9a17-5dcb23f72df0
ORCID for S. Wilks: ORCID iD orcid.org/0000-0002-4134-9415
ORCID for G. D'Alessandro: ORCID iD orcid.org/0000-0001-9166-9356

Catalogue record

Date deposited: 27 Mar 2023 16:31
Last modified: 17 Mar 2024 02:45

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Contributors

Author: M.T. van Rossem
Author: S. Wilks ORCID iD
Author: P.R. Secor
Author: M. Kaczmarek
Author: G. D'Alessandro ORCID iD

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