Bidirectional Communication between Droplet Interface Bilayers Driven by Cell‐Free Quorum Sensing Gene Circuits

Posted on 8 August 2023 by

Building communicating synthetic cells using droplet interface bilayers encapsulating cell-free expression systems with quorum sensing gene circuits.

Abstract

Building synthetic multicellular systems using non-living molecular components is a grand challenge in the field of bottom-up synthetic biology. Towards this goal, a diverse range of chemistries have been developed to provide mechanisms of intercellular communication and methods to assemble multicellular compartments. However, building bottom-up synthetic multicellular systems is still challenging because it requires the integration of intercellular reaction networks with compatible cellular compartment properties. In this study, we encapsulated cell-free expression systems (CFES) expressing two quorum sensing genetic circuits into droplet interface bilayer (DIB) synthetic cells to demonstrate bidirectional communication. We further develop a method of generating custom DIB multicellular structures by acoustic liquid handling to automatically dispense the CFES droplets and show the potential for multiplexing compartmentalized gene circuits for generating heterogeneous populations of cells. Our work provides a step towards building more complex multicellular systems with intercellular communication from the bottom-up to study and experimentally model biological multiscalar processes.

Peptide and Peptidomimetic Assemblies in Dynamic Combinatorial Chemistry

Posted on 27 July 2023 by nAshmi Rodrigues, nLou Rocard, nRoba Moumnén

Dynamic combinatorial library of peptides can be generated either through amino-acid like monomers oligomerization, amino-acid side-chain grafting on static scaffolds or pre-synthesized peptide assembly. These stimuli responsive libraries are of great value for screening purpose in drug discovery, biosensing or material sciences.

Abstract

A strong revival of interest has been dedicated to peptides over the last few years, in different fields including drug discovery, biosensing and material sciences. The use of dynamic covalent chemistry has allowed the development of self-adaptative peptides or peptidomimetics, responsive to their environment. The development of methods allowing the building, screening or deconvolution of libraries of peptides is a highly active research area and dynamic combinatorial chemistry represents an innovative and underexploited method in this field. This Review gives an overview of the use of dynamic covalent chemistry as a tool to produce peptides or peptidomimetics, with particular attention to applications in dynamic combinatorial chemistry.

A Constitutionally Dynamic Cage Acts as a Convertible and Adaptable Information Manager in Supramolecular Logic

Posted on 25 July 2023 by

A three-component molecular ensemble consisting of a constitutionally dynamic cage, a rotaxane and a luminophore acts as a signal transducer which assimilates three input signals, i. e., Zn²⁺, H⁺, and Cu⁺, to perform two individual logic operations.

Abstract

A three-component molecular ensemble consisting of the constitutionally dynamic cage 1, rotaxane 2 and luminophore 3 acts as a signal transducer which assimilates three input signals, i. e., Zn²⁺, H⁺, and Cu⁺, to perform individual logic operations (e. g. a 3-input NOR gate with catalytic output, 3-input AND gate with optical output) and operates as an unconventional 3-input demultiplexer.