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Engineering transient dynamics of artificial cells by stochastic distribution of enzymes

Engineering transient dynamics of artificial cells by stochastic distribution of enzymes

Engineering transient dynamics of artificial cells by stochastic distribution of enzymes

Random fluctuations are inherent to all complex molecular systems. Although nature has evolved mechanisms to control stochastic events to achieve the desired biological output, reproducing this in synthetic systems represents a significant challenge. Here we present an artificial platform that enables us to exploit stochasticity to direct motile behavior. We found that enzymes, when confined to the fluidic polymer membrane of a core-shell coacervate, were distributed stochastically in time and space. This resulted in a transient, asymmetric configuration of propulsive units, which imparted motility to such coacervates in presence of substrate. This mechanism was confirmed by stochastic modelling and simulations in silico. Furthermore, we showed that a deeper understanding of the mechanism of stochasticity could be utilized to modulate the motion output. Conceptually, this work represents a leap in design philosophy in the construction of synthetic systems with life-like behaviors.

10.1038/s41467-021-27229-0

2041-1723

Song, Shidong

79d06cc4-d607-4112-b432-b4f9516e4054

Mason, Alexander F.

5e1b0b49-d0c7-4a74-b805-f3b2416a54dd

Post, Richard A. J.

bd1a68a2-1c80-4093-b211-67f6714d1d60

Corato, Marco De

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Mestre, Rafael

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Yewdall, N. Amy

7a47133d-d1c3-4b77-9ea9-c391ad7494de

Cao, Shoupeng

b52eb88b-8e4e-4a30-89e3-b0da48bfd4be

Hofstad, Remco W. van der

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Sanchez, Samuel

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Abdelmohsen, Loai K. E. A.

5751aede-0bce-4234-9618-8e62486f52e0

Hest, Jan C. M. van

17f20378-6642-4e8a-ba07-54b50fe0e001

25 November 2021

Song, Shidong

79d06cc4-d607-4112-b432-b4f9516e4054

Mason, Alexander F.

5e1b0b49-d0c7-4a74-b805-f3b2416a54dd

Post, Richard A. J.

bd1a68a2-1c80-4093-b211-67f6714d1d60

Corato, Marco De

633c06b9-578a-475f-aa57-bd1d497d4b6a

Mestre, Rafael

33721a01-ab1a-4f71-8b0e-abef8afc92f3

Yewdall, N. Amy

7a47133d-d1c3-4b77-9ea9-c391ad7494de

Cao, Shoupeng

b52eb88b-8e4e-4a30-89e3-b0da48bfd4be

Hofstad, Remco W. van der

3fc12593-c039-4567-9df2-5e3aef845e5c

Sanchez, Samuel

6446b512-3b7d-43c9-904d-b0269eceff48

Abdelmohsen, Loai K. E. A.

5751aede-0bce-4234-9618-8e62486f52e0

Hest, Jan C. M. van

17f20378-6642-4e8a-ba07-54b50fe0e001

Song, Shidong, Mason, Alexander F., Post, Richard A. J., Corato, Marco De, Mestre, Rafael, Yewdall, N. Amy, Cao, Shoupeng, Hofstad, Remco W. van der, Sanchez, Samuel, Abdelmohsen, Loai K. E. A. and Hest, Jan C. M. van (2021) Engineering transient dynamics of artificial cells by stochastic distribution of enzymes. Nature Communications, 12, [6897]. (doi:10.1038/s41467-021-27229-0).

Record type: Article

Abstract

Random fluctuations are inherent to all complex molecular systems. Although nature has evolved mechanisms to control stochastic events to achieve the desired biological output, reproducing this in synthetic systems represents a significant challenge. Here we present an artificial platform that enables us to exploit stochasticity to direct motile behavior. We found that enzymes, when confined to the fluidic polymer membrane of a core-shell coacervate, were distributed stochastically in time and space. This resulted in a transient, asymmetric configuration of propulsive units, which imparted motility to such coacervates in presence of substrate. This mechanism was confirmed by stochastic modelling and simulations in silico. Furthermore, we showed that a deeper understanding of the mechanism of stochasticity could be utilized to modulate the motion output. Conceptually, this work represents a leap in design philosophy in the construction of synthetic systems with life-like behaviors.

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More information

Published date: 25 November 2021

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Identifiers

Local EPrints ID: 481113

URI: http://eprints.soton.ac.uk/id/eprint/481113

DOI: doi:10.1038/s41467-021-27229-0

ISSN: 2041-1723

PURE UUID: 41488c1e-57ad-4390-b03c-b6ca5d523052

ORCID for Rafael Mestre:

orcid.org/0000-0002-2460-4234

Catalogue record

Date deposited: 15 Aug 2023 16:54

Last modified: 17 Mar 2024 04:06

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Contributors

Author: Shidong Song

Author: Alexander F. Mason

Author: Richard A. J. Post

Author: Marco De Corato

Author: Rafael Mestre

Author: N. Amy Yewdall

Author: Shoupeng Cao

Author: Remco W. van der Hofstad

Author: Samuel Sanchez

Author: Loai K. E. A. Abdelmohsen

Author: Jan C. M. van Hest

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