A new technique for generating extended pH gradients (5 pH units) in Immobiline gels is reported. The previously described (J. Biochem. Biophys. Methods 7, 1983, 123-142) five-chamber gradient mixer has been replaced by a two-vessel device. A single mixture of the available Immobilines (pK 3.6, 4.6, 6.2, 7.0, 8.5 and 9.3) is made, with relative concentrations adjusted so as to produce the most uniform buffering power throughout the desired pH interval. This mixture is then divided into two portions, which are titrated to the extremes of the required pH span with an acidic titrant (Immobiline pK ≈ 1) and a basic species (Immobiline pK 9.95). Highly reproducible pH gradients (pH 4-9) are thus generated, which appear extremely useful for the first dimensioned of 2-dimensional techniques. Our previously reported computer program has been implemented with an optimization algorithm which, given any cocktail of Immobilines, automatically adjusts the relative initial concentrations until the smoothest possible β power is found. For the first time it is possible to perform IEF under controlled physico-chemical parameters: pH span and linearity, β power, ionic strength and molarity of the buffering species.
Isoelectric focusing in immobilized pH gradients: generation and optimization of wide pH intervals with two-chamber mixers / E. Gianazza, G. Dossi, F. Celentano, P.G. Righetti. - In: JOURNAL OF BIOCHEMICAL AND BIOPHYSICAL METHODS. - ISSN 0165-022X. - 8:2(1983), pp. 109-133.
Isoelectric focusing in immobilized pH gradients: generation and optimization of wide pH intervals with two-chamber mixers
E. GianazzaPrimo
;
1983
Abstract
A new technique for generating extended pH gradients (5 pH units) in Immobiline gels is reported. The previously described (J. Biochem. Biophys. Methods 7, 1983, 123-142) five-chamber gradient mixer has been replaced by a two-vessel device. A single mixture of the available Immobilines (pK 3.6, 4.6, 6.2, 7.0, 8.5 and 9.3) is made, with relative concentrations adjusted so as to produce the most uniform buffering power throughout the desired pH interval. This mixture is then divided into two portions, which are titrated to the extremes of the required pH span with an acidic titrant (Immobiline pK ≈ 1) and a basic species (Immobiline pK 9.95). Highly reproducible pH gradients (pH 4-9) are thus generated, which appear extremely useful for the first dimensioned of 2-dimensional techniques. Our previously reported computer program has been implemented with an optimization algorithm which, given any cocktail of Immobilines, automatically adjusts the relative initial concentrations until the smoothest possible β power is found. For the first time it is possible to perform IEF under controlled physico-chemical parameters: pH span and linearity, β power, ionic strength and molarity of the buffering species.Pubblicazioni consigliate
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