Abstract
Out of all nitrophenyl esters of N(alpha)-protected alpha-amino acids Z-Trp-ONP(o) is the only one which is deep orange colored in the crystalline state. Any change in N(alpha)-protection, nature of amino acid, spatial separation between Trp and the ester-group or position of the nitro-substitutent in the aromatic ring of the ester function results in a loss of this characteristic property. We solved the molecular and crystal structure of Z-l-Trp-ONP(o) by X-ray diffraction analysis and investigated its color changes and visible (vis) and infrared (IR) absorption spectra in the solid state as a function of the amino acid derivative/KBr (w/w) ratio in the pellets. This investigation was extended to toluene solutions of different Z-Trp-ONP(o) concentrations by use of vis absorption and proton magnetic resonance spectroscopic techniques. The onset of the orange color correlates closely with the appearance of a concentration-dependent absorption band near 500 nm and concentration-dependent shifts of the urethane and indole NH proton resonances. Our observations can be explained by the formation of an intermolecular charge transfer complex involving the Trp indole and the -ONP(o) nitrophenyl as the donor and the acceptor moieties, respectively.
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