Comparison between measured and calculated ionised concentrations in Mg
2+/ATP, Mg
2+/EDTA and Ca
2+/EGTA buffers; influence of changes in temperature, pH and pipetting errors on the ionised concentrations

John AS McGuigan; James W Kay; Hugh Y Elder; Daniel LÜthi

doi:10.1684/mrh.2007.0092



Printable version
Comparison between measured and calculated ionised concentrations in Mg ²⁺/ATP, Mg ²⁺/EDTA and Ca ²⁺/EGTA buffers; influence of changes in temperature, pH and pipetting errors on the ionised concentrations
Magnesium Research. Volume 20, Number 1, 72-81, March 2007, Original article
Free Article
Author(s) : John AS McGuigan, James W Kay, Hugh Y Elder, Daniel LÜthi
Summary : The apparent dissociation constants (K _app) and total ligand concentrations ([Ligand] _T) from extensive published and unpublished macroelectrode measurements for Mg ²⁺/ATP, Mg ²⁺/EDTA and Ca ²⁺/EGTA buffers have been recalculated. These calculations were made feasible by the introduction of an Excel program which reduced the time of calculation for K _app and [Ligand] _T from over an hour to under five minutes. These estimations of K _app and [Ligand] _T allowed, not only a comparison between measured and calculated ionised magnesium and calcium concentrations ([Mg ²⁺] and [Ca ²⁺]) for Mg ²⁺/ATP, Mg ²⁺/EDTA and Ca ²⁺/EGTA buffers but also a comparison amongst calculated values. Calculated [X ²⁺] values always differed from measured, and calculated values differed amongst themselves by factors of at least 2. These variations cast doubts on the published absolute values for intracellular [Mg ²⁺] estimated by ³¹P-NMR and the resting values for [Ca ²⁺] in cells.The allowable range for [X ²⁺] in the buffers and consequently for K _app and [Ligand] _T has not been defined, which introduces uncertainties into published absolute values for [X ²⁺]. This paper shows that an upper limit of ± 10% deviation from the mean value for [X ²⁺] is attainable. This requires the temperature to be maintained within ± 0.5°C, pH within ± 0.01 units and pipetting errors of less than 0.25%. Until internationally defined buffer standards are available, the lack of correlation between measured and calculated [X ²⁺] means that measurement of K _app and [Ligand] _T and hence [X ²⁺] is more reliable than calculation.
Keywords : Mg ²⁺ buffers, Ca ²⁺ buffers, apparent dissociation constant, ATP, EDTA, EGTA, measured/calculated concentrations, imprecision

Comparison between measured and calculated ionised concentrations in Mg 2+/ATP, Mg 2+/EDTA and Ca 2+/EGTA buffers; influence of changes in temperature, pH and pipetting errors on the ionised concentrations

Comparison between measured and calculated ionised concentrations in Mg ²⁺/ATP, Mg ²⁺/EDTA and Ca ²⁺/EGTA buffers; influence of changes in temperature, pH and pipetting errors on the ionised concentrations