Affinity chromatography, protein purification technique

The ELP expression system was compared to the conventional oligohistidme fusion, which is traditionally applied for purification by immobilized metal affinity chromatography (IMAC). Both techniques were shown to have a similar yield of the recombinant protein. The temperature-triggered approach offers a fast and inexpensive nonchromatographic separation with the possibility for larger scale purification. Although the ELP expression system may not be applicable to all types of recombinant proteins, numerous examples have already been shown [40]. 

Classical LLPC using aqueous-aqueous polymer systems based on Albertsson s [9] PEG-dextran system has provided a versatile tool for the separation of proteins and nucleic acids, thus increasing the arsenal of biopolymer purification methods currently dominated by gel filtration, ion-exchange chromatography, and affinity chromatography RPC. The technique operates... 

CAT can be purified by a variety of procedures involving both conventional protein purification techniques (15) and, preferably, affinity chromatography (2,4). One efficient affinity matrix used for rapid preparation of highly purified enzymes consists of the substrate Cm bound to the carboxyl group of substituted Sepharose via the amino group of 2-amino-Cm. 

The endothelin B receptor is an example of characterization of a homogeneous, affinity purified protein (Roos et al., 1998). Significant progress has been made in the development of techniques for more high-throughput identification of phosphorlyation events. Analysis of large sets of phosphorylated proteins is facilitated by the availability of affinity purification methods such as anti-phosphotyrosine or anti-phosphoserine antibodies or metal affinity chromatography (Neubauer and Mann, 1999 Soskic et al., 1999). These methods are not specific to a particular protein but rather are used to fractionate all proteins that are phosphorylated. 

Nickel affinity chromatography was chosen as the primary purification technique because it is a fast and reliable one-step assay and purified complexes can often be used in downstream applications without the necessity of removing the polyhistidine tag. In addition, the polyhistidine tag is smaller than many other affinity tags targeted by commercially available affinity resins and, in most cases, does not seem to interfere with the structure and function of the recombinant protein. 

Metal-chelate affinity chromatography is a powerful purification technique whereby proteins or other molecules can be separated based upon their ability to form coordination complexes with immobilized metal ions (Porath et al., 1975 Lonnerdal and Keen, 1982 Porath and Belew, 1983 Porath and Olin, 1983 Sulkowski, 1985 Kagedal, 1989). The metal ions are stabilized on a matrix through the use of chelating compounds which usually have multivalent points of interaction with the metal atoms. To form useful affinity supports, these metal ion complexes must have some free or weakly associated and exchangeable coordination sites. These exchangeable sites then can form complexes with coordination sites on proteins or other molecules. Substances that are able to interact with the immobilized metals will bind and be retained on... 

Metal chelate affinity chromatography finds most prominent application in the affinity purification of recombinant proteins to which a histidine tag has been attached (described later). As protein binding occurs via the histidine residues, this technique is no more inherently useful for the purification of metalloproteins than for the purification of non-metalloproteins (a common misconception, given its name). 

Proteins are frequently powerful immunogens and the availability of specific antibodies, particularly monoclonal antibodies, makes the technique of affinity chromatography very useful in the separation and purification of individual proteins. The technique has been used to purify a wide range of proteins such as hormones, membrane receptors and complement proteins. However, it is not restricted to proteins and is potentially applicable to any immunogenic substance. The availability of suitable antibodies is essential and these may be raised by whole animal polyclonal techniques or by monoclonal cell culture. The former antibodies may need some prior purification before being immobilized. 

Procion Rubine MX-B, Procion Yellow H-A, and Turquoise MX-G. These dyes have found use over the last few decades in the purification of a broad range of proteins and enzymes, including albumin, decarboxylases, glycolytic enzymes, hydrolases, lyases, nucleases, oxidoreductases, synthetases, and transferases [77,78], The first use of dye-ligand affinity chromatography was described by Staal et al. in 1971 [79], Since that time, it has become an extremely popular tool for enzyme and protein purification, with hundreds of such compounds having been isolated by this technique [3-6,76-79],... 

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