Synthesis and nonradioactive micro-analysis of diphosphoinositol phosphates by HPLC with postcolumn complexometry.
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Synthesis and nonradioactive micro-analysis of diphosphoinositol phosphates by HPLC with postcolumn complexometry. / Lin, Hongying; Lindner, Karsten; Mayr, Georg W.
in: Methods Mol Biol, Jahrgang 645, 2010, S. 103-122.Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung
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TY - JOUR
T1 - Synthesis and nonradioactive micro-analysis of diphosphoinositol phosphates by HPLC with postcolumn complexometry.
AU - Lin, Hongying
AU - Lindner, Karsten
AU - Mayr, Georg W.
PY - 2010
Y1 - 2010
N2 - A nonradioactive high-performance anion-exchange chromatographic method based on MDD-HPLC (Mayr Biochem. J. 254:585-591, 1988) was developed for the separation of inositol hexakisphosphate (InsP(6), phytic acid) and most isomers of pyrophosphorylated inositol phosphates, such as diphosphoinositol pentakisphosphate (PPInsP(5) or InsP(7)) and bis-diphosphoinositol tetrakisphosphate (bisPPInsP(4) or InsP(8)). With an acidic elution, the anion-exchange separation led to the resolution of four separable PPInsP(5) isomers (including pairs of enantiomers) into three peaks and of nine separable bisPPInsP(4) isomers into nine peaks. The whole separation procedure was completed within 20-36 min after optimization. Reference standards of all bisPPInsP(4) isomers were generated by a nonenzymatic shotgun synthesis from InsP(6). Hereby, the phosphorylation was brought about nonenzymatically when concentrated InsP(6) bound to the solid surface of anion-exchange beads was incubated with creatine phosphate under optimal pH conditions. From the mixture of pyrophosphorylated InsP(6) derivatives containing all theoretically possible isomers of PPInsP(5), bisPPInsP(4), and also some isomers of trisPPInsP(3), isomers were separated by anion-exchange chromatography and fractions served as reference standards of bisPPInsP(4) isomers for further investigation. Their isomeric nature could be partly assigned by comparison with position specifically synthesized or NMR-characterized purified protozoan reference compounds and partly by limited hydrolysis to PPInsP(5) isomers. By applying this nonradioactive analysis technique to cellular studies, the isomeric nature of the major bisPPInsP(4) in mammalian cells could be identified without the need to obtain sufficient material for NMR analysis.
AB - A nonradioactive high-performance anion-exchange chromatographic method based on MDD-HPLC (Mayr Biochem. J. 254:585-591, 1988) was developed for the separation of inositol hexakisphosphate (InsP(6), phytic acid) and most isomers of pyrophosphorylated inositol phosphates, such as diphosphoinositol pentakisphosphate (PPInsP(5) or InsP(7)) and bis-diphosphoinositol tetrakisphosphate (bisPPInsP(4) or InsP(8)). With an acidic elution, the anion-exchange separation led to the resolution of four separable PPInsP(5) isomers (including pairs of enantiomers) into three peaks and of nine separable bisPPInsP(4) isomers into nine peaks. The whole separation procedure was completed within 20-36 min after optimization. Reference standards of all bisPPInsP(4) isomers were generated by a nonenzymatic shotgun synthesis from InsP(6). Hereby, the phosphorylation was brought about nonenzymatically when concentrated InsP(6) bound to the solid surface of anion-exchange beads was incubated with creatine phosphate under optimal pH conditions. From the mixture of pyrophosphorylated InsP(6) derivatives containing all theoretically possible isomers of PPInsP(5), bisPPInsP(4), and also some isomers of trisPPInsP(3), isomers were separated by anion-exchange chromatography and fractions served as reference standards of bisPPInsP(4) isomers for further investigation. Their isomeric nature could be partly assigned by comparison with position specifically synthesized or NMR-characterized purified protozoan reference compounds and partly by limited hydrolysis to PPInsP(5) isomers. By applying this nonradioactive analysis technique to cellular studies, the isomeric nature of the major bisPPInsP(4) in mammalian cells could be identified without the need to obtain sufficient material for NMR analysis.
M3 - SCORING: Zeitschriftenaufsatz
VL - 645
SP - 103
EP - 122
JO - Methods Mol Biol
JF - Methods Mol Biol
SN - 1064-3745
ER -