2022
DOI: 10.1021/acsabm.1c01204
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Surface Functionalization of Rod-Shaped Viral Particles for Biomedical Applications

Abstract: While synthetic nanoparticles play a very important role in modern medicine, concerns regarding toxicity, sustainability, stability, and dispersity are drawing increasing attention to naturally derived alternatives. Rod-shaped plant viruses and virus-like particles (VLPs) are biological nanoparticles with powerful advantages such as biocompatibility, tunable size and aspect ratio, monodispersity, and multivalency. These properties facilitate controlled biodistribution and tissue targeting for powerful applicat… Show more

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Cited by 11 publications
(7 citation statements)
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“…Direct fusion of peptides or proteins via genetic fusion has long been used because it is a simple, effective, and selective method for functionalizing VLPs [ 4 ]. As in the case of GFP and VIP, the protein of interest is fused to a CP domain projected towards the exterior of the VLP.…”
Section: Discussionmentioning
confidence: 99%
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“…Direct fusion of peptides or proteins via genetic fusion has long been used because it is a simple, effective, and selective method for functionalizing VLPs [ 4 ]. As in the case of GFP and VIP, the protein of interest is fused to a CP domain projected towards the exterior of the VLP.…”
Section: Discussionmentioning
confidence: 99%
“…Since its creation, the SpyTag/SpyCatcher approach has been used in several nanotechnological applications based on protein covalent coupling [ 18 , 31 , 32 ]. One of these applications is VNP functionalization, a field where this technology has been recently implemented with promising results [ 4 ]. In this study, we show how the SpyTag/SpyCatcher approach is a successful technique for TuMV VLPs’ functionalization as it allowed us to coat the VLPs with VIP after several unsuccessful attempts via genetic fusion and chemical conjugation [ 28 ].…”
Section: Discussionmentioning
confidence: 99%
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“…The genome fuses desirable surface ligands to the coat protein and alters the surface components of PVNPs (Wen & Steinmetz, 2016). These unique properties of PVNPs, along with nanoengineering, can be used for various applications, including vaccines, imaging, and drug delivery (Vaidya & Solomon, 2022). Different nanoengineering strategies have been approved for the fabrication of multifunctional PVNP formulations, including encapsulation techniques (self‐assembly, infusion), bioconjugation chemistries, mineralization, and combination strategies.…”
Section: Strategies For Multifunctional Pvnps Formulationsmentioning
confidence: 99%