Orthophosphate determination in the presence of high concentrations of ATP

We describe a modified colorimetric method that quantitates inorganic phosphate linearly up to 60 nmol, with high stability of the developed color and with a low interference by ATP concentration (up to 30 mM). This method is very suitable for use in ATPase enzymatic assays, especially with enzymes

During studies on the dcgradativc changes in synthetic l~olymctaphosphatcs by ultrasonic irradiation', it was ncccssary to estimate the small amounts of orthophosphate originally prcscnt and also any orthophosphate found during the cxposurc. Colorrmctric methods where hrgh concentrations of sulfuric

To investigate in-vivo concentrations of cytoplasmic phosphate, especially during dynamic conditions, a method has been developed that enables reproducible determination of cytopiasmic phosphate from 5 pM up to 30 FM. The method involves fast sampling. spontaneous inactivation of cell metabolism and

Phosphoethanolamine forms a low-solubility lead salt, which may be precipitated from urine together with inorganic phosphate, thus separating taurine, urea, and other interfering substances of chromatographic determination. Fluorometric detection of phosphoethanolamine with ophthaldialdehyde after e

Marsh (1) has proposed a procedure for the estimation of inorganic orthophosphate (Pi) in the presence of ATP, which is purportedly designed to overcome errors resulting from molybdate-catalyzed hydrolysis of ATP (2). In a critique of methods currently used for the assay of Pi in the presence of lab

Ficoll hampers the transfer of unreduced phosphomolybdic acid (PMA) from aqueous to organic phase when determining inorganic phosphate (PI) by the method of Sanui [(1974)Anal. Biochem. 60,489-5041. This reduction in the transfer can be overcome by changing the organic solvent and the acidity in the