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Noncanonical Condensation of Nucleic Acid Chains by Hydrophobic Gold Nanocrystals

Yu Li, Haoran Zheng, Hui Lu, Mulin Duan, Cong Li, Mingqiang Li, Jiang Li, Lihua Wang, Qian Li, Jing Chen, Jianlei Shen

2023JACS Au11 citationsDOIOpen Access PDF

Abstract

Nucleic acid condensates are essential for various biological processes and have numerous applications in nucleic acid nanotechnology, gene therapy, and mRNA vaccines. However, unlike the in vivo condensation that is dependent on motor proteins, the in vitro condensation efficiency remains to be improved. Here, we proposed a hydrophobic interaction-driven mechanism for condensing long nucleic acid chains using atomically precise hydrophobic gold nanoclusters (Au NCs). We found that hydrophobic Au NCs could condense long single-stranded DNA or RNA to form composites of spherical nanostructures, which further assembled into bead-shaped suprastructures in the presence of excessive Au NCs. Thus, suprastructures displayed gel-like behaviors, and Au NCs could diffuse freely inside the condensates, which resemble the collective motions of condensin complexes inside chromosomes. The dynamic hydrophobic interactions between Au NCs and bases allow for the reversible release of nucleic acids in the presence of mild triggering agents. Our method represents a significant advancement toward the development of more efficient and versatile nucleic acid condensation techniques.

Topics & Concepts

Nucleic acidNanoclustersCondensationDNAChemistryHydrophobic effectRNABiophysicsCondensation reactionNanotechnologyDNA condensationMaterials scienceOrganic chemistryBiochemistryBiologyGeneCatalysisPhysicsThermodynamicsTransfectionNanocluster Synthesis and ApplicationsAdvanced biosensing and bioanalysis techniquesGold and Silver Nanoparticles Synthesis and Applications