Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.

Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.

Hydrogels have become a promising research focus because of their potential for biomedical application. Here we explore the long-range, electrostatic interactions by following the effect of trans-acting (pH) and cis-acting factors (peptide mutation) on the formation of Au-phage hydrogels. These bioi...

Full description

Bibliographic Details
Main Authors: Glauco R Souza, Esra Yonel-Gumruk, Davin Fan, Jeffrey Easley, Roberto Rangel, Liliana Guzman-Rojas, J Houston Miller, Wadih Arap, Renata Pasqualini
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2008-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2386289?pdf=render
id doaj-5969b7401fda4188b92ea8f01e633c8e
record_format Article
spelling doaj-5969b7401fda4188b92ea8f01e633c8e2020-11-25T02:03:32ZengPublic Library of Science (PLoS)PLoS ONE1932-62032008-01-0135e224210.1371/journal.pone.0002242Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.Glauco R SouzaEsra Yonel-GumrukDavin FanJeffrey EasleyRoberto RangelLiliana Guzman-RojasJ Houston MillerWadih ArapRenata PasqualiniHydrogels have become a promising research focus because of their potential for biomedical application. Here we explore the long-range, electrostatic interactions by following the effect of trans-acting (pH) and cis-acting factors (peptide mutation) on the formation of Au-phage hydrogels. These bioinorganic hydrogels can be generated from the bottom-up assembly of Au nanoparticles (Au NP) with either native or mutant bacteriophage (phage) through electrostatic interaction of the phage pVIII major capsid proteins (pVIII). The cis-acting factor consists of a peptide extension displayed on the pVIII that mutates the phage. Our results show that pH can dictate the direct-assembly and stability of Au-phage hydrogels in spite of the differences between the native and the mutant pVIII. The first step in characterizing the interactions of Au NP with phage was to generate a molecular model that identified the charge distribution and structure of the native and mutant pVIII. This model indicated that the mutant peptide extension carried a higher positive charge relative to the native pVIII at all pHs. Next, by monitoring the Au-phage interaction by means of optical microscopy, elastic light scattering, fractal dimension analysis as well as Uv-vis and surface plasmon resonance spectroscopy, we show that the positive charge of the mutant peptide extension favors the opposite charge affinity between the phage and Au NP as the pH is decreased. These results show the versatility of this assembly method, where the stability of these hydrogels can be achieved by either adjusting the pH or by changing the composition of the phage pVIII without the need of phage display libraries.http://europepmc.org/articles/PMC2386289?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Glauco R Souza
Esra Yonel-Gumruk
Davin Fan
Jeffrey Easley
Roberto Rangel
Liliana Guzman-Rojas
J Houston Miller
Wadih Arap
Renata Pasqualini
spellingShingle Glauco R Souza
Esra Yonel-Gumruk
Davin Fan
Jeffrey Easley
Roberto Rangel
Liliana Guzman-Rojas
J Houston Miller
Wadih Arap
Renata Pasqualini
Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
PLoS ONE
author_facet Glauco R Souza
Esra Yonel-Gumruk
Davin Fan
Jeffrey Easley
Roberto Rangel
Liliana Guzman-Rojas
J Houston Miller
Wadih Arap
Renata Pasqualini
author_sort Glauco R Souza
title Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
title_short Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
title_full Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
title_fullStr Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
title_full_unstemmed Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors.
title_sort bottom-up assembly of hydrogels from bacteriophage and au nanoparticles: the effect of cis- and trans-acting factors.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2008-01-01
description Hydrogels have become a promising research focus because of their potential for biomedical application. Here we explore the long-range, electrostatic interactions by following the effect of trans-acting (pH) and cis-acting factors (peptide mutation) on the formation of Au-phage hydrogels. These bioinorganic hydrogels can be generated from the bottom-up assembly of Au nanoparticles (Au NP) with either native or mutant bacteriophage (phage) through electrostatic interaction of the phage pVIII major capsid proteins (pVIII). The cis-acting factor consists of a peptide extension displayed on the pVIII that mutates the phage. Our results show that pH can dictate the direct-assembly and stability of Au-phage hydrogels in spite of the differences between the native and the mutant pVIII. The first step in characterizing the interactions of Au NP with phage was to generate a molecular model that identified the charge distribution and structure of the native and mutant pVIII. This model indicated that the mutant peptide extension carried a higher positive charge relative to the native pVIII at all pHs. Next, by monitoring the Au-phage interaction by means of optical microscopy, elastic light scattering, fractal dimension analysis as well as Uv-vis and surface plasmon resonance spectroscopy, we show that the positive charge of the mutant peptide extension favors the opposite charge affinity between the phage and Au NP as the pH is decreased. These results show the versatility of this assembly method, where the stability of these hydrogels can be achieved by either adjusting the pH or by changing the composition of the phage pVIII without the need of phage display libraries.
url http://europepmc.org/articles/PMC2386289?pdf=render
work_keys_str_mv AT glaucorsouza bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT esrayonelgumruk bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT davinfan bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT jeffreyeasley bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT robertorangel bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT lilianaguzmanrojas bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT jhoustonmiller bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT wadiharap bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
AT renatapasqualini bottomupassemblyofhydrogelsfrombacteriophageandaunanoparticlestheeffectofcisandtransactingfactors
_version_ 1724947547292696576

Similar Items