Litcius/Paper detail

Expression of Fatty Acyl-CoA Ligase Drives One-Pot <i>De Novo</i> Synthesis of Membrane-Bound Vesicles in a Cell-Free Transcription-Translation System

Ahanjit Bhattacharya, Christy J. Cho, Roberto J. Brea, Neal K. Devaraj

2021Journal of the American Chemical Society17 citationsDOI

Abstract

Despite the central importance of lipid membranes in cellular organization, it is challenging to reconstitute their formation de novo from minimal chemical and biological elements. Here, we describe a chemoenzymatic route to membrane-forming noncanonical phospholipids in which cysteine-modified lysolipids undergo spontaneous coupling with fatty acyl-CoA thioesters generated enzymatically by a fatty acyl-CoA ligase. Due to the high efficiency of the reaction, we were able to optimize phospholipid formation in a cell-free transcription-translation (TX-TL) system. Combining DNA encoding the fatty acyl-CoA ligase with suitable lipid precursors enabled one-pot de novo synthesis of membrane-bound vesicles. Noncanonical sphingolipid synthesis was also possible by using a cysteine-modified lysosphingomyelin as a precursor. When the sphingomyelin-interacting protein lysenin was coexpressed alongside the acyl-CoA ligase, the in situ assembled membranes were spontaneously decorated with protein. Our strategy of coupling gene expression with membrane lipid synthesis in a one-pot fashion could facilitate the generation of proteoliposomes and brings us closer to the bottom-up generation of synthetic cells using recombinant synthetic biology platforms.

Topics & Concepts

ChemistryDNA ligaseBiochemistryCell-free protein synthesisSphingomyelinUbiquitin ligaseDe novo synthesisVesicleCell biologyMembraneProtein biosynthesisBiologyDNAUbiquitinGeneEnzymeLipid Membrane Structure and BehaviorRNA Interference and Gene DeliveryRNA and protein synthesis mechanisms