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Separation Media (separation + media)
Selected AbstractsMonolithic Separation Media: Where Are They Heading?JOURNAL OF SEPARATION SCIENCE, JSS, Issue 10-11 2004Frantisek Svec [source] Two-dimensional protein separation in microfluidic devicesELECTROPHORESIS, Issue 5 2009Hong Chen Abstract Proteomics is emerging as an important tool in modern drug discoveries and medical diagnostics. One of the techniques used in proteomics studies is 2-DE. The process of the conventional 2-DE is time-consuming and it has substandard reproducibility. Many efforts have been made to address the limitations, with an aim for fast separation and high resolution. In this paper, we reviewed the work on achieving 2-DE in microfluidic devices, including individual dimension in one channel, two dimensions in two intersected channels, and 2-D separation in a large number of channels. We also discussed the need for integrating microvalves within 2-DE devices to prevent different separation media from contaminating with each other. Although more efforts are required to match the performance of conventional 2-DE in a slab gel, microfluidics-based 2-D separation has a potential to become an alternative in the future. [source] Nanostructured copolymer gels for dsDNA separation by CEELECTROPHORESIS, Issue 23 2008Fen Wan Abstract Pluronics are triblock copolymers of poly(ethylene oxide)-poly(propylene oxide)-poly(ethylene oxide) that are able to form many different ordered nanostructures at appropriate polymer concentrations and temperatures in selective solvents. These nanostructured "gels" showed desirable criteria when used as DNA separation media, especially in microchip electrophoresis, including dynamic coating and viscosity switching. A ternary system of F127 (E99P69E99)/TBE buffer/1-butanol was selected as a model system to test the sieving performance of different nanostructures in separating dsDNA by CE. The nanostructures and their lattice constants were determined by small-angle X-ray scattering. Viscosity measurements showed the sol,gel transition phenomena. In addition to the cubic structure, successful electrophoretic separation of dsDNA in 2-D hexagonally packed cylinders was achieved. Results showed that without further optimization, ,X174 DNA,Hae III digest was well separated within 15,min in a 7-cm separation channel, by using F127/TBE/1-butanol gel with a 2-D hexagonal structure. A mechanism for DNA separations by those gels with both hydrophilic and hydrophobic domains is discussed. [source] Characterization and differentiation of diverse transgenic and nontransgenic soybean varieties from CE protein profilesELECTROPHORESIS, Issue 13 2007Carmen García-Ruiz Abstract Nowadays, soybeans are commercialized in a wide variety of colors and tones. Moreover, some pigmented seeds are being commercialized as soybeans while, on other occasions, these seeds are labeled as mung beans, azuki beans or soybean frijoles generating confusion on their identity. In this work, CE has been applied for the first time for the characterization and differentiation of different pigmented beans commercialized as soybeans. Other seeds commercialized as azuki, mung green soybeans or soybean frijoles were also analyzed. Borate buffer (at pH,8.5) containing 20% v/v ACN was used as the separation media and solution containing ACN/water (75:25 v/v) with 0.3% v/v acetic acid was used to solubilize the proteins from the samples. A 50,cm bare fused-silica capillary was employed for obtaining adequate separations in about 12,min. The CE protein pattern observed for yellow soybeans was different from that corresponding to green and red soybeans. The seeds commercialized as black soybean presented electropherograms identical or similar to those yielded by the yellow seeds with the exception of the sample labeled as black soybeans frijoles that presented a totally different pattern. In addition, CE protein profiles obtained for azuki and mung green soybeans were very similar to those corresponding to red soybeans and green soybeans, respectively. Finally, the CE method was also applied to differentiate transgenic and nontransgenic soybean varieties. Discriminant analysis, using several protein peak areas as variable, was used to successfully classify these samples. [source] Enantioseparation in capillary electrophoresis using 2- O -(2-hydroxybutyl)-,-CD as a chiral selectorELECTROPHORESIS, Issue 20 2005Xiuli Lin Abstract The resolving ability of 2- O -(2-hydroxybutyl)-,-CD (HB-,-CD) with different degrees of substitution (DS,=,2.9 and 4.0) as a chiral selector in CZE is reported in this work. Fourteen chiral drugs belonging to different classes of compounds of pharmaceutical interest such as ,-agonists, antifungal agents, ageneric agents, etc., were resolved. The effects of the DS of HB-,-CD on separations were also investigated. The chiral resolution (Rs) was strongly influenced by the concentrations of the CD derivative, the BGE, and the pH of the BGE. Under the conditions of 50,mmol/L Tris-phosphate buffer at pH,2.5 containing 5,mmol/L HB-,-CD, all 14 analytes were separated. The very low concentration necessary to obtain separation was particularly impressive. The DS had a significant effect on the resolution of the chiral drugs and the ionic strength of the separation media; hence, the use of a well-characterized CD derivative is crucial. [source] Molecularly imprinted polymers as affinity-based separation media for sample preparationJOURNAL OF SEPARATION SCIENCE, JSS, Issue 10 2009Jun HaginakaArticle first published online: 26 MAY 200 Abstract This review article deals with molecularly imprinted polymers (MIPs) as affinity-based separation media for sample preparation. An over view of two types of MIPs (molecularly imprinted particle and monolith) used for the sample preparation and modes of molecularly imprinted SPE (online mode, offline mode, on-column extraction, SPME, and microextraction in packed syringe) is given, focusing on the advantages and disadvantages of these types and modes. Next, problems (template leakage and incompatibility with aqueous conditions) associated with molecularly imprinted SPE and how to overcome those problems are described. Finally, pharmaceutical, food, bioanalytical, and environmental application of molecularly imprinted SPE will be discussed. [source] Utility of ionic liquids in analytical separationsJOURNAL OF SEPARATION SCIENCE, JSS, Issue 11 2007Shahab A. Shamsi Abstract Ionic liquids (ILs), as separation media, have made significant contributions in the past decades in advancing research in gas chromatography (GC), liquid chromatography (LC), and capillary electrophoresis (CE). This review, covering reports published from the mid 1980s to early 2007, shows how ILs have been used so far in separation science, originally primarily as GC stationary phases and later as mobile phase additives (both millimolar and major percent levels) for LC and CE. Representative GC and LC chromatograms as well as CE electropherograms are shown. In addition, the very recent findings on the development of ionic liquids with surfactant properties and its applications for chiral and achiral analysis are discussed. [source] Preparation and properties of magnetic nano- and microsized particles for biological and environmental separationsJOURNAL OF SEPARATION SCIENCE, JSS, Issue 11 2007Daniel Horák Abstract The paper presents a critical overview on magnetic nanoparticles and microspheres used as separation media in different fields of chemistry, biochemistry, biology, and environment protection. The preparation of most widely used magnetic iron oxides in appropriate form, their coating or encapsulation in polymer microspheres, and functionalization is discussed in the first part. In the second part, new developments in the main application areas of magnetic composite particles for separation and catalytical purposes are briefly described. They cover separations and isolations of toxic inorganic and organic ions, proteins, and other biopolymers, cells, and microorganisms. Only selected number of relevant papers could be included due to the restricted extent of the review. [source] Retention time prediction using the model of liquid chromatography of biomacromolecules at critical conditions in LC-MS phosphopeptide analysisPROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 19 2010Tatiana Yu Perlova Abstract LC combined with MS/MS analysis of complex mixtures of protein digests is a reliable and sensitive method for characterization of protein phosphorylation. Peptide retention times (RTs) measured during an LC-MS/MS run depend on both the peptide sequence and the location of modified amino acids. These RTs can be predicted using the LC of biomacromolecules at critical conditions model (BioLCCC). Comparing the observed RTs to those obtained from the BioLCCC model can provide additional validation of MS/MS-based peptide identifications to reduce the false discovery rate and to improve the reliability of phosphoproteome profiling. In this study, energies of interaction between phosphorylated residues and the surface of RP separation media for both "classic" alkyl C18 and polar-embedded C18 stationary phases were experimentally determined and included in the BioLCCC model extended for phosphopeptide analysis. The RTs for phosphorylated peptides and their nonphosphorylated analogs were predicted using the extended BioLCCC model and compared with their experimental RTs. The extended model was evaluated using literary data and a complex phosphoproteome data set distributed through the Association of Biomolecular Resource Facilities Proteome Informatics Research Group 2010 study. The reported results demonstrate the capability of the extended BioLCCC model to predict RTs which may lead to improved sensitivity and reliability of LC-MS/MS-based phosphoproteome profiling. [source] | ||||||||||