Article

Characterization of superparamagnetic iron oxide nanoparticles and its application in protein purification.

Division of Environmental Microbiology, Royal Institute of Technology, Stockholm, 106 91 Stockholm, Sweden.
Journal of Nanoscience and Nanotechnology (impact factor: 1.56). 11/2011; 11(11):10201-6. pp.10201-6
Source: PubMed

ABSTRACT The application of surface modified magnetic adsorbent particles in combination with magnetic separation techniques has received considerable awareness in recent years. There is a particular need in protein purification and analysis for specific, functional and generic methods of protein binding on solid supports. Nanoscale superparamagnetic iron oxide particles have been used to purify a natural coagulant protein extracted from Moringa oleifera seeds. Spectrophotometric analysis of the coagulant protein was performed using synthetic clay solution as substrate. Protein binding with carboxyl and silica surface modified superparamagnetic iron oxide nanoparticles (SPION) were compared with the known carboxyl methyl cellulose (CMC) beads of approximately 1 microm. SPION modified with carboxyl surface showed higher binding capacity towards the coagulant protein compared to the CMC beads. The high surface area to volume ratio of the carboxyl-coated SPION resulted in high binding capacity and rapid adsorption kinetics of the crude protein extract. The purification and molecular weight of coagulant protein is analyzed by SDS-PAGE. This approach utilizes the most efficient, feasible and economical method of coagulant protein purification and it can also be applicable to other proteins that possess similar properties.

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  • Article: Comparison and functionalization study of microemulsion-prepared magnetic iron oxide nanoparticles.
    Chuka Okoli, Margarita Sanchez-Dominguez, Magali Boutonnet, Sven Järås, Concepción Civera, Conxita Solans, Gunaratna Rajarao Kuttuva
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    ABSTRACT: Magnetic iron oxide nanoparticles (MION) for protein binding and separation were obtained from water-in-oil (w/o) and oil-in-water (o/w) microemulsions. Characterization of the prepared nanoparticles have been performed by TEM, XRD, SQUID magnetometry, and BET. Microemulsion-prepared magnetic iron oxide nanoparticles (ME-MION) with sizes ranging from 2 to 10 nm were obtained. Study on the magnetic properties at 300 K shows a large increase of the magnetization ~35 emu/g for w/o-ME-MION with superparamagnetic behavior and nanoscale dimensions in comparison with o/w-ME-MION (10 emu/g) due to larger particle size and anisotropic property. Moringa oleifera coagulation protein (MOCP) bound w/o- and o/w-ME-MION showed an enhanced performance in terms of coagulation activity. A significant interaction between the magnetic nanoparticles and the protein can be described by changes in fluorescence emission spectra. Adsorbed protein from MOCP is still retaining its functionality even after binding to the nanoparticles, thus implying the extension of this technique for various applications.
    Langmuir 05/2012; 28(22):8479-85. · 4.19 Impact Factor
Data provided are for informational purposes only. Although carefully collected, accuracy cannot be guaranteed. The impact factor represents a rough estimation of the journal's impact factor and does not reflect the actual current impact factor. Publisher conditions are provided by RoMEO. Differing provisions from the publisher's actual policy or licence agreement may be applicable.

Keywords

binding capacity
 
carboxyl surface
 
carboxyl-coated SPION
 
CMC beads
 
coagulant protein
 
coagulant protein purification
 
considerable awareness
 
crude protein
 
economical method
 
higher binding capacity
 
known carboxyl methyl cellulose
 
molecular weight
 
Nanoscale superparamagnetic iron oxide particles
 
natural coagulant protein
 
Protein binding
 
protein purification
 
rapid adsorption kinetics
 
silica surface
 
superparamagnetic iron oxide nanoparticles
 
synthetic clay solution