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Impact of process impurities on developability assessments of complex antibody formats: the striking role of leachable copper. [PDF]
MAbsWieser V +6 more
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Evaluation of LC/MS Methods for Hydrophilic Metabolites to Enable Integration of Human Blood Metabolome Data. [PDF]
Mass Spectrom (Tokyo)Imado Y +7 more
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Preparation and Research Progress of Polymer-Based Anion Exchange Chromatography Stationary Phases. [PDF]
Polymers (Basel)Liu H +6 more
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Monolithic Columns for the Isolation of Lectin: Principles, Advances and Prospects. [PDF]
ACS Omegado Nascimento IS +6 more
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Comprehensive profiling of arsenosugars in algae using UHPLC-HRMS and UHPLC-IMS-Q-TOF. [PDF]
Anal Bioanal ChemMorales-Rodríguez A +4 more
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Bioprocess Design and Optimization of Extracellular Vesicles Derived from Mesenchymal Stromal Cells. [PDF]
ACS NanoDehghani M +29 more
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Methods in enzymology, 2010
Ion-exchange chromatography is the most popular chromatographic method for separation of proteins. It is a versatile and generic tool and is suited for discovery of proteins, high-resolution purification, and industrial production of proteins. Separation conditions are within physiological range of salt and pH and in the most cases a native protein can
Alois, Jungbauer, Rainer, Hahn
+7 more sources
Ion-exchange chromatography is the most popular chromatographic method for separation of proteins. It is a versatile and generic tool and is suited for discovery of proteins, high-resolution purification, and industrial production of proteins. Separation conditions are within physiological range of salt and pH and in the most cases a native protein can
Alois, Jungbauer, Rainer, Hahn
+7 more sources
Current Protocols in Protein Science, 1998
AbstractThis unit outlines the basic steps in planning and carrying out ion‐exchange chromatography to separate proteins. Protocols describe both batch adsorption and column chromatography in conjunction with either step‐ or linear elution gradients. Support protocols describe (1) pilot experiments to determine initial conditions for batch or column ...
D, Sheehan, R, FitzGerald
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AbstractThis unit outlines the basic steps in planning and carrying out ion‐exchange chromatography to separate proteins. Protocols describe both batch adsorption and column chromatography in conjunction with either step‐ or linear elution gradients. Support protocols describe (1) pilot experiments to determine initial conditions for batch or column ...
D, Sheehan, R, FitzGerald
openaire +5 more sources
Analytical Chemistry, 1964
Ion-exchange chromatography is a versatile method of separation and concentration which is applicable to many kinds of analysis, inorganic, organic, and biochemical. The experimental technique is simple and in most cases fairly rapid. In the great majority of inorganic applications, all that is needed is a tube about 25 cm long and 1 cm i.d ...
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Ion-exchange chromatography is a versatile method of separation and concentration which is applicable to many kinds of analysis, inorganic, organic, and biochemical. The experimental technique is simple and in most cases fairly rapid. In the great majority of inorganic applications, all that is needed is a tube about 25 cm long and 1 cm i.d ...
openaire +2 more sources
Analytical Chemistry, 1962
Chromatographic methods using either the synthetic ion-exchange resins or other ion-exchange materials are widely used for the separation of many classes of ionized or ionizable substances. Substances of both high and low molecular weight have been successfully chromatographed on ion-exchange materials.
Robert Kunin, F. X. McGarvey
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Chromatographic methods using either the synthetic ion-exchange resins or other ion-exchange materials are widely used for the separation of many classes of ionized or ionizable substances. Substances of both high and low molecular weight have been successfully chromatographed on ion-exchange materials.
Robert Kunin, F. X. McGarvey
openaire +2 more sources