Investigation of the 31P NMR chemical shift dependence of phosphoryl compounds on the inductive and resonance effects of substituents

## Abstract The proton chemical shifts are reported for monosubstituted naphthalenes, quinolines and quinoxalines. Together with literature data, these chemical shifts are compared with the parent compounds and substituent effects evaluated statistically. The effect of substituents parallels that i

## Abstract The measurement of free intracellular magnesium (Mg^2+^) using the ^31^P chemical shifts of ATP requires the use of appropriate calibration solutions to determine the chemical‐shift limits Δ^ATP^~αβ~ and Δ^MgATP^~αβ~. Solutions containing excess Mg^2+^ contain significant amounts of Mg~

## Abstract Phosphorylation of the tetrapeptide Gly‐Gly‐His‐Ala by phosphoamidate provides a model peptide for proteins which, in the course of their reaction, bind a phosphoryl group to an imidazole ring. ^31^P‐ and ^1^H‐NMR data, including chemical shift and pK values, for this peptide and its th

## Abstract The ^29^Si NMR subtituent chemical shifts of 14 __meta__‐and __para__‐substituted derivatives of phenyltrimethyl‐and phenoxytrimethyl‐silanes have been interpreted in a uniform manner. They are shown to depend not only on the local but also on the non‐local parts of the charge distribut

## Abstract Chloro‐, methoxy‐ and methyl‐substituents in the 4‐position of phenanthrenes exert a profound and diagnostic influence on the ^1^H chemicalshift of H‐5, and from ^13^C measurements it is considered to be dueto an anisotropic effect.