Issue 22, 2021

Membrane-coated 3D architectures for bottom-up synthetic biology

Abstract

One of the great challenges of bottom-up synthetic biology is to recreate the cellular geometry and surface functionality required for biological reactions. Of particular interest are lipid membrane interfaces where many protein functions take place. However, cellular 3D geometries are often complex, and custom-shaping stable lipid membranes on relevant spatial scales in the micrometer range has been hard to accomplish reproducibly. Here, we use two-photon direct laser writing to 3D print microenvironments with length scales relevant to cellular processes and reactions. We formed lipid bilayers on the surfaces of these printed structures, and we evaluated multiple combinatorial scenarios, where physiologically relevant membrane compositions were generated on several different polymer surfaces. Functional dynamic protein systems were reconstituted in vitro and their self-organization was observed in response to the 3D geometry. This method proves very useful to template biological membranes with an additional spatial dimension, and thus allows a better understanding of protein function in relation to the complex morphology of cells and organelles.

Graphical abstract: Membrane-coated 3D architectures for bottom-up synthetic biology

Supplementary files

Article information

Article type
Paper
Submitted
21 Jan 2021
Accepted
17 Mar 2021
First published
23 Mar 2021
This article is Open Access
Creative Commons BY license

Soft Matter, 2021,17, 5456-5466

Membrane-coated 3D architectures for bottom-up synthetic biology

H. Eto, H. G. Franquelim, M. Heymann and P. Schwille, Soft Matter, 2021, 17, 5456 DOI: 10.1039/D1SM00112D

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