The experimental validation refers to the computer program reported in the companion paper, able to simulate the course of pH, buffering power (β) and ionic strength (I) of polyprotic buffers (either singly or in a mixture) titrated over any ph range. With simple oligoamines (up to five nitrogens) it is shown that it is impossible to generate linear pH gradients in the pH 4-10 interval, unless they are mixed in appropriate ratios. With pentaethylene hexamine, when used alone, it is possible to create a linear pH 4-10 interval, provided the molarity ratios are altered in the two chambers of the gradient mixer. The general rule operating for generation of linear pH intervals is constancy of buffering power throughout the titration. Local minima of β produce steeper gradients, while local β maxima flatten it. The ideal ΔpK to arrange for linear pH gradients during titration is centered around 1 pH unit; thus polyprotic buffers with very large ΔpK values (e.g., EDTA) appear to be totally useless for this purpose. The present computing algorithms displacement chromatography of for creating new, properly tailored, buffer mixtures.
PH GRADIENTS GENERATED BY POLYPROTIC BUFFERS .2. EXPERIMENTAL VALIDATION / P. RIGHETTI, M. FAZIO, C. TONANI, E. GIANAZZA, F. CELENTANO. - In: JOURNAL OF BIOCHEMICAL AND BIOPHYSICAL METHODS. - ISSN 0165-022X. - 16:2-3(1988), pp. 129-140.
PH GRADIENTS GENERATED BY POLYPROTIC BUFFERS .2. EXPERIMENTAL VALIDATION
E. GIANAZZAPenultimo
;
1988
Abstract
The experimental validation refers to the computer program reported in the companion paper, able to simulate the course of pH, buffering power (β) and ionic strength (I) of polyprotic buffers (either singly or in a mixture) titrated over any ph range. With simple oligoamines (up to five nitrogens) it is shown that it is impossible to generate linear pH gradients in the pH 4-10 interval, unless they are mixed in appropriate ratios. With pentaethylene hexamine, when used alone, it is possible to create a linear pH 4-10 interval, provided the molarity ratios are altered in the two chambers of the gradient mixer. The general rule operating for generation of linear pH intervals is constancy of buffering power throughout the titration. Local minima of β produce steeper gradients, while local β maxima flatten it. The ideal ΔpK to arrange for linear pH gradients during titration is centered around 1 pH unit; thus polyprotic buffers with very large ΔpK values (e.g., EDTA) appear to be totally useless for this purpose. The present computing algorithms displacement chromatography of for creating new, properly tailored, buffer mixtures.
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