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CRISPR-Guided Programmable Self-Assembly of Artificial Virus-Like Nucleocapsids

Carlos Calcines-Cruz, Ilya J. Finkelstein, Armando Hernández-García

2021Nano Letters23 citationsDOIOpen Access PDF

Abstract

Designer virus-inspired proteins drive the manufacturing of more effective, safer gene-delivery systems and simpler models to study viral assembly. However, self-assembly of engineered viromimetic proteins on specific nucleic acid templates, a distinctive viral property, has proved difficult. Inspired by viral packaging signals, we harness the programmability of CRISPR-Cas12a to direct the nucleation and growth of a self-assembling synthetic polypeptide into virus-like particles (VLP) on specific DNA molecules. Positioning up to ten nuclease-dead Cas12a (dCas12a) proteins along a 48.5 kbp DNA template triggers particle growth and full DNA encapsidation at limiting polypeptide concentrations. Particle growth rate is further increased when dCas12a is dimerized with a polymerization silk-like domain. Such improved self-assembly efficiency allows for discrimination between cognate versus noncognate DNA templates by the synthetic polypeptide. CRISPR-guided VLPs will help to develop programmable bioinspired nanomaterials with applications in biotechnology as well as viromimetic scaffolds to improve our understanding of viral self-assembly.

Topics & Concepts

TemplateNucleaseDNACRISPRNanotechnologyDNA nanotechnologyNucleic acidSelf-assemblyComputational biologyChemistryBiophysicsCell biologyBiologyMaterials scienceBiochemistryGeneBacteriophages and microbial interactionsCRISPR and Genetic EngineeringVirology and Viral Diseases
CRISPR-Guided Programmable Self-Assembly of Artificial Virus-Like Nucleocapsids | Litcius