Thermally induced conformational transitions in nascent branched amphiphilic peptide capsules.
@article{Sukthankar2015ThermallyIC,
title={Thermally induced conformational transitions in nascent branched amphiphilic peptide capsules.},
author={Pinakin Sukthankar and Susan K. Whitaker and M. Garc{\'i}a and Alvaro I Herrera and Mark Daniel Boatwright and Om Prakash and John M. Tomich},
journal={Langmuir : the ACS journal of surfaces and colloids},
year={2015},
volume={31 10},
pages={
2946-55
}
}Branched amphiphilic peptide capsules (BAPCs) are biocompatible, bilayer delimited polycationic nanospheres that spontaneously form at room temperature through the coassembly of two amphiphilic branched peptides: bis(FLIVI)-K-K4 and bis(FLIVIGSII)-K-K4. BAPCs are readily taken up by cells in culture, where they escape and/or evade the endocytic pathway and accumulate in the perinuclear region, persisting there without apparent degradation or extravasation. Drugs, small proteins, and solutes as…
13 Citations
Branched Amphipathic Peptide Capsules: Different Ratios of the Two Constituent Peptides Direct Distinct Bilayer Structures, Sizes, and DNA Transfection Efficiency.
- BiologyLangmuir : the ACS journal of surfaces and colloids
- 2017
Different molar ratios of the two peptides were studied to test whether alternate ratios produced BAPCs with different biological and biophysical properties, and preparation (annealing) temperature was included as a second variable.
Organization and Structure of Branched Amphipathic Oligopeptide Bilayers.
- Biology, ChemistryLangmuir : the ACS journal of surfaces and colloids
- 2016
At atomistic simulations were performed to characterize the structure and organization of bilayers formed by three branched amphiphilic peptides, revealing that the BAPC bilayers are highly permeable to water and suggest that leaflet interdigitation likely occurs at early stages of BAPCs.
Synthesis and Characterization of Multifunctional Branched Amphiphilic Peptide Bilayer Conjugated Gold Nanoparticles
- Chemistry, BiologyACS Omega
- 2018
We provide strong chemical and biophysical evidence that documents that branched amphiphilic peptides, BAPs, known to assemble into spherical nanoassemblies in solution, do assemble as…
Rationally designed peptide nanosponges for cell-based cancer therapy.
- Chemistry, BiologyNanomedicine : nanotechnology, biology, and medicine
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A Study of The Cellular Uptake of Magnetic Branched Amphiphilic Peptide Capsules.
- Biology, ChemistryMolecular pharmaceutics
- 2020
Results suggest that BAPc-MNBs are internalized into the cytosol using more than one endocytic pathway, which will allow for strengthening of their delivery capabilities and expanding their therapeutic applications.
Peptide self-assembly: thermodynamics and kinetics.
- Chemistry, BiologyChemical Society reviews
- 2016
This review focuses on the influence of thermodynamic and kinetic factors on structural assembly and regulation based on different types of peptide building blocks, including aromatic dipeptides, amphiphilic peptides, polypeptide, and amyloid-relevant peptides.
A review of solute encapsulating nanoparticles used as delivery systems with emphasis on branched amphipathic peptide capsules.
- Biology, ChemistryArchives of biochemistry and biophysics
- 2016
Gene delivery and immunomodulatory effects of plasmid DNA associated with Branched Amphiphilic Peptide Capsules.
- Biology, ChemistryJournal of controlled release : official journal of the Controlled Release Society
- 2016
Biodegradable Drug-Delivery Peptide Nanocapsules
- Biology, EngineeringACS omega
- 2019
It is demonstrated, using BAPCs encapsulating the toxic urea analogue thiourea, that the common soil fungus Aspergillus nidulans can degrade BAPC and evidence that this degradation is extracellular through the action of secreted proteases indicates that B APCs are likely biodegradable in the environment.
Multicomponent peptide assemblies.
- Chemistry, Materials ScienceChemical Society reviews
- 2018
The design, structure, emergent properties, and applications for these multicomponent assemblies are presented in order to illustrate the potential of these formulations as sophisticated next-generation bio-inspired materials.
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