Autonomous synthesis and assembly of a ribosomal subunit on a chip
Michael Lévy, Reuven Falkovich, Shirley S. Daube, Roy Bar‐Ziv
Abstract
small ribosomal subunit by synthesizing and capturing all its ribosomal proteins and RNA on a chip. Surface confinement provided favorable conditions for autonomous stepwise assembly of new subunits, spatially segregated from original intact ribosomes. Our real-time fluorescence measurements revealed hierarchal assembly, cooperative interactions, unstable intermediates, and specific binding to large ribosomal subunits. Using only synthetic genes, our methodology is a crucial step toward creation of a self-replicating artificial cell and a general strategy for the mechanistic investigation of diverse multicomponent macromolecular machines.
Topics & Concepts
RibosomeRibosome biogenesisBiogenesisRibosomal RNAProtein subunitEukaryotic RibosomeRibosomal proteinComputational biology30SBiologyCell biologySynthetic biologyEscherichia coliMolecular machineRNAChemistryGeneBiochemistryGeneticsRNA and protein synthesis mechanismsModular Robots and Swarm IntelligenceGenomics and Phylogenetic Studies