A Photo-degradable Crosslinker for the Development of Light-responsive Protocell Membranes

Patrick J Grimes; Mary E Jenkinson-Finch; Henry E Symons; Wuge H Briscoe; Sebastien Rochat; Stephen Mann; Pierangelo Gobbo

doi:10.1002/chem.202302058

A Photo-degradable Crosslinker for the Development of Light-responsive Protocell Membranes

Patrick J Grimes, Mary E Jenkinson-Finch, Henry E Symons, Wuge H Briscoe, Sebastien Rochat, Stephen Mann^*, Pierangelo Gobbo^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

2 Citations (Scopus)

Abstract

The achievement of light-responsive behaviours is an important target for protocell engineering to allow control of fundamental protocellular processes such as communication via diffusible chemical signals, shape changes or even motility at the flick of a switch. As a step towards this ambitious goal, here we describe the synthesis of a novel poly(ethylene glycol)-based crosslinker, reactive towards nucleophiles, that effectively degrades with UV light (405 nm). We demonstrate its utility for the fabrication of the first protocell membranes capable of light-induced disassembly, for the photo-generation of patterns of protocells, and for the modulation of protocell membrane permeability. Overall, our results not only open up new avenues towards the engineering of spatially organised, communicating networks of protocells, and of micro-compartmentalised systems for information storage and release, but also have important implications for other research fields such as drug delivery and soft materials chemistry.

Original language	English
Article number	e202302058
Number of pages	9
Journal	Chemistry – A European Journal
Volume	29
Issue number	61
Early online date	27 Jul 2023
DOIs	https://doi.org/10.1002/chem.202302058
Publication status	Published - 2 Nov 2023

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Max Planck Bristol
Bristol BioDesign Institute

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title = "A Photo-degradable Crosslinker for the Development of Light-responsive Protocell Membranes",

abstract = "The achievement of light-responsive behaviours is an important target for protocell engineering to allow control of fundamental protocellular processes such as communication via diffusible chemical signals, shape changes or even motility at the flick of a switch. As a step towards this ambitious goal, here we describe the synthesis of a novel poly(ethylene glycol)-based crosslinker, reactive towards nucleophiles, that effectively degrades with UV light (405 nm). We demonstrate its utility for the fabrication of the first protocell membranes capable of light-induced disassembly, for the photo-generation of patterns of protocells, and for the modulation of protocell membrane permeability. Overall, our results not only open up new avenues towards the engineering of spatially organised, communicating networks of protocells, and of micro-compartmentalised systems for information storage and release, but also have important implications for other research fields such as drug delivery and soft materials chemistry.",

author = "Grimes, {Patrick J} and Jenkinson-Finch, {Mary E} and Symons, {Henry E} and Briscoe, {Wuge H} and Sebastien Rochat and Stephen Mann and Pierangelo Gobbo",

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doi = "10.1002/chem.202302058",

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T1 - A Photo-degradable Crosslinker for the Development of Light-responsive Protocell Membranes

AU - Grimes, Patrick J

AU - Jenkinson-Finch, Mary E

AU - Symons, Henry E

AU - Briscoe, Wuge H

AU - Rochat, Sebastien

AU - Mann, Stephen

AU - Gobbo, Pierangelo

PY - 2023/11/2

Y1 - 2023/11/2

N2 - The achievement of light-responsive behaviours is an important target for protocell engineering to allow control of fundamental protocellular processes such as communication via diffusible chemical signals, shape changes or even motility at the flick of a switch. As a step towards this ambitious goal, here we describe the synthesis of a novel poly(ethylene glycol)-based crosslinker, reactive towards nucleophiles, that effectively degrades with UV light (405 nm). We demonstrate its utility for the fabrication of the first protocell membranes capable of light-induced disassembly, for the photo-generation of patterns of protocells, and for the modulation of protocell membrane permeability. Overall, our results not only open up new avenues towards the engineering of spatially organised, communicating networks of protocells, and of micro-compartmentalised systems for information storage and release, but also have important implications for other research fields such as drug delivery and soft materials chemistry.

AB - The achievement of light-responsive behaviours is an important target for protocell engineering to allow control of fundamental protocellular processes such as communication via diffusible chemical signals, shape changes or even motility at the flick of a switch. As a step towards this ambitious goal, here we describe the synthesis of a novel poly(ethylene glycol)-based crosslinker, reactive towards nucleophiles, that effectively degrades with UV light (405 nm). We demonstrate its utility for the fabrication of the first protocell membranes capable of light-induced disassembly, for the photo-generation of patterns of protocells, and for the modulation of protocell membrane permeability. Overall, our results not only open up new avenues towards the engineering of spatially organised, communicating networks of protocells, and of micro-compartmentalised systems for information storage and release, but also have important implications for other research fields such as drug delivery and soft materials chemistry.

U2 - 10.1002/chem.202302058

DO - 10.1002/chem.202302058

M3 - Article (Academic Journal)

C2 - 37497813

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VL - 29

JO - Chemistry – A European Journal

JF - Chemistry – A European Journal

IS - 61

M1 - e202302058

ER -

A Photo-degradable Crosslinker for the Development of Light-responsive Protocell Membranes

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