Priyaa Prasad scite author profile

Self-assembly of random copolymers has attracted considerable attention recently. In this feature article, we highlight the use of random copolymers to prepare nanostructures with different morphologies and to prepare nanomaterials that are responsive to single or multiple stimuli. The synthesis of single-chain nanoparticles and their potential applications from random copolymers are also discussed in some detail. We aim to draw more attention to these easily accessible copolymers, which are likely to play an important role in translational polymer research.

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Protein-Induced Supramolecular Disassembly of Amphiphilic Polypeptide Nanoassemblies

Molla

Prasad

Thayumanavan

2015

J. Am. Chem. Soc.

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Mimicking non-covalent interaction based processes in nature has been an important goal of supramolecular chemistry. Here, we report on amphiphilic polypeptides that self-assemble to form nanoscale supramolecular assemblies and are programmed to disassemble in response to a specific protein. Benzenesulfonamide and carbonic anhydrase have been chosen as the ligand and protein respectively to demonstrate this possibility. Since the amphiphilic nanoassembly sequesters hydrophobic guest molecules, the protein-specific disassembly event provides a protein-sensitive molecular release as well. We envision that the binding induced disassembly and guest release might open up new opportunities for the next generation of supramolecular assemblies for protein-specific delivery and diagnostics.

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Probing the Microenvironment of Polymer-Impregnated Composite Glass Using Solvatochromic Dye

Gvishi¹,

Narang²,

Bright³

et al. 1995

Chem. Mater.

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Unlocking a Caged Lysosomal Protein from a Polymeric Nanogel with a pH Trigger

et al. 2014

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A polymeric nanogel has been used to sequester and turn off a lysosomal protein, acid α-glucosidase (GAA). The nanogel contains a β-thiopropionate cross-linker, which endows the nanogel with pH-sensitivity. While encapsulation of the enzyme fully turns off its activity, approximately 75% of the activity is recovered upon reducing the pH to 5.0. The recovered activity is ascribed to pH-induced degradation of the β-thiopropionate cross-linker causing the swelling of the nanogel and ultimately causing the release of the enzyme. We envision that strategies for sequestering protein molecules and releasing them at lysosomal pH might open up new directions for therapeutic treatment of lysosomal storage diseases.

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Bait-and-Switch Supramolecular Strategy To Generate Noncationic RNA–Polymer Complexes for RNA Delivery

et al. 2018

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RNA interference (RNAi) requires the intracellular delivery of RNA molecules to initiate the neutralization of targeted mRNA molecules, inhibiting the expression or translation of the targeted gene. Current polymers and lipids that are used to deliver RNA molecules are generally required to be positively charged, to achieve complexation with RNA and the cellular internalization. However, positive surface charge has been implicated as the reason for toxicity in many of these systems. Herein, we report a novel strategy to generate noncationic RNA−polymer complexes for RNA delivery with low cytotoxicity. We use an in situ electrostatic complexation using a methylated pyridinium group, which is simultaneously removed during the RNA binding step. The resultant complexes demonstrate successful knockdown in preimplantation mammalian embryos, thus providing a new approach for nucleic acid delivery.

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Zwitterionic amphiphilic homopolymer assemblies

et al. 2015

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Zwitterionic amphiphilic homopolymers can be conveniently prepared in one-pot using activated ester-based polymer precursors. We show that these zwitterionic polymers can (i) spontaneously self-assemble to form micelle-like and inverse micelle-like assemblies depending on the solvent environment; (ii) act as hydrophilic and hydrophobic nanocontainers in apolar and polar solvents respectively; (iii) undergo pH-responsive surface charge and size variations; (iv) exhibit least cytotoxicity compared to structurally analogous amphiphilic homopolymers.

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Interfacial polymerization of monomolecular and Langmuir-Blodgett films of ((butoxycarbonyl)methyl)urethane diacetylenes

Biegajski¹,

Cadenhead²,

Prasad³

1991

Macromolecules

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Temporal and Triggered Evolution of Host–Guest Characteristics in Amphiphilic Polymer Assemblies

et al. 2016

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An amphiphilic polymer with cleavable side chain and main chain functional groups has been designed and synthesized. Specific cleavage of either of its functional groups was found to have an effect on the morphology of the assembly. Degradation of the main chain is shown to cause morphology of the supramolecular assembly to evolve with time from a micelle-like assembly to a vesicular assembly. On the other hand, stimulus-induced cleavage of the side chains causes these nanoassemblies to disassemble. These temporal (main chain) and triggered (side chain) degradiation processes have implications in the design of degradable polymers as supramoleular scaffolds for biological applications.

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Priyaa Prasad

Self-assembly of random copolymers

Protein-Induced Supramolecular Disassembly of Amphiphilic Polypeptide Nanoassemblies

Probing the Microenvironment of Polymer-Impregnated Composite Glass Using Solvatochromic Dye

Unlocking a Caged Lysosomal Protein from a Polymeric Nanogel with a pH Trigger

Bait-and-Switch Supramolecular Strategy To Generate Noncationic RNA–Polymer Complexes for RNA Delivery

Zwitterionic amphiphilic homopolymer assemblies

Interfacial polymerization of monomolecular and Langmuir-Blodgett films of ((butoxycarbonyl)methyl)urethane diacetylenes

Temporal and Triggered Evolution of Host–Guest Characteristics in Amphiphilic Polymer Assemblies

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