2007
DOI: 10.1016/j.chroma.2007.07.010
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pH-gradient ion-exchange chromatography: An analytical tool for design and optimization of protein separations

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Cited by 66 publications
(55 citation statements)
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“…by running the chromatographic experiments at pH 10 with (strong) anion exchangers or at pH 3 with (strong) cation exchangers. This experimental design could clearly influence chromatographic protein behaviour making the separation much more sensitive to the shape of the titration curves, as reported previously [9].…”
Section: Correlating Proteomic Routines With Chromatographic Behaviourmentioning
confidence: 66%
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“…by running the chromatographic experiments at pH 10 with (strong) anion exchangers or at pH 3 with (strong) cation exchangers. This experimental design could clearly influence chromatographic protein behaviour making the separation much more sensitive to the shape of the titration curves, as reported previously [9].…”
Section: Correlating Proteomic Routines With Chromatographic Behaviourmentioning
confidence: 66%
“…Therefore, little correlation was observed between pI values and elution pH in such , nonnative' systems [11]. Moreover, pI values for neutral proteins are also not correlated to elution behaviour during pH-gradient chromatography [9].…”
Section: Introductionmentioning
confidence: 98%
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“…It was recently demonstrated that pH gradient ion-exchange chromatography can be applied effectively as an analytical tool for the fractionation and characterization of crude protein mixtures and for pH optimization of an ionexchange step. 69 Thermodynamic generalization was proposed as a way of interrelating the relevant thermodynamic properties of proteins in order to reduce the number model parameters and hence experimentation required for modeling the purification units involved. 68 A rational synthesis methodology is required for rapidly generating alternative process options and for screening them to select the best one.…”
Section: Hybrid Methodsmentioning
confidence: 99%
“…The pI values of each of the five model proteins were calculated from their primary structure. The protein sequence and pI calculation were taken from the ProtParam tool available on the ExPASy Proteomics Server (http://www.expasy.org) [20,21]. As shown in Table 1, three of the five computed values follow the elution pH values obtained from the chromatographs and two did not closely follow the maximum eluting pH.…”
Section: Chromatographic Behavior Of Model Proteinsmentioning
confidence: 99%