![]() ![]() Isliker HC (1957) Chemical nature of antibodies. Sutherland GB, Campbell DH (1958) The use of antigen-coated glass as a specific adsorbent for antibody. Manecke G, Gillert KE (1955) Serologically specific adsorbents. Lerman LS (1953) A biochemically specific method for enzyme isolation. Lerman LS (1953) Antibody chromatography on an immunologically specific adsorbent. J Exp Med 63:325–339Ĭampbell DH, Luescher E, Lerman LS (1951) Immunologic adsorbents I: isolation of antibody by means of a cellulose-protein antigen. Landsteiner K, van der Scheer J (1936) Cross reactions of immune sera to azoproteins. Meyer K, Pic A (1936) Isolation of antibodies by fixation on an adsorbent-antigen system with subsequent regeneration. J Exp Med 67:181–199ĭ’Alessandro G, Sofia F (1935) The adsorption of antibodies from the sera of syphilitics and tuberculosis patients. Heidelberger M, Kabat EA (1938) Quantitative studies on antibody purification, II: the dissociation of antibody from pneumococcus-specific precipitates and specifically agglutinated pneumococci. Marrack JR, Smith FC (1932) Quantitative aspects of immunity reactions: the combination of antibodies with simple haptenes. Kirk JS, Sumner JB (1934) The reaction between crystalline urease and antiurease. Landsteiner K (1920) Specific serum reactions induced by the addition of substances of known constitution (organic acids), XVI: antigens and serological specificity. Grant NH, Robbins KC (1957) Porcine elastase and proelastase. Lineweaver H, Jang R, Jansen EF (1949) Specificity and purification of polygalacturonase. Northrup JH (1934) Crystalline pepsin, VI: inactivation by β- and γ-rays from radium and by ultraviolet light. Hockenhull DJD, Herbert D (1945) The amylase and maltase of Clostridium acetobutylcium. Tokuoka Y (1937) Koji amylase IX: existence of β-amylase. Holmbergh O (1933) Adsorption of α-amylase from malt by starch. Biochem Z 24:210–218Īmbard L (1921) Amylase: its estimation and the mechanism of its action. Starkenstein E (1910) Ferment action and the influence upon it of neutral salts. Tswett M (1907) The chemistry of chlorophyll, phylloxanthin, phyllocyanin, and chlorophyllane. Anal Chem 57:1099A–1114AĮttre LS (1993) Nomenclature for chromatography. Walters RR (1985) Affinity chromatography. Parikh I, Cuatrecasas P (1985) Affinity chromatography. Scouten WH (1981) Affinity chromatography: bioselective adsorption on inert matrices. Turkova J (1978) Affinity chromatography. Hage DS (ed) (2006) Handbook of affinity chromatography, 2nd edn. ![]() Poole CF, Poole SK (1991) Chromatography today. Immobilized metal-ion affinity chromatography.High-performance affinity chromatography.Various applications of affinity chromatography are also summarized, as well as the influence this field has played in the creation of other affinity-based separation or analysis methods. Past and recent efforts in the generation of new binding agents, supports, and immobilization methods for this method are considered. The general principles of affinity chromatography are briefly described as part of this discussion. This review examines the early work in this method and various developments that have lead to the current status of this technique. This method makes use of a biologically related agent as the stationary phase, which provides an affinity column with the ability to bind selectively and reversibly to a given target in a sample. Affinity chromatography is one of the most selective and versatile forms of liquid chromatography for the separation or analysis of chemicals in complex mixtures. ![]()
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