Histidine Oxidation in the S2 to S3 Transition Probed by FTIR Difference Spectroscopy in the Ca2+-Depleted Photosystem II: Comparison with Histidine Radicals Generated by UV Irradiation

Abstract

FTIR difference and EPR spectroscopies were used to identify the organic radical species formed during the S2 to S3 transition in Ca(2+)-depleted, EGTA-treated, and polypeptide-reconstituted photosystem II membranes (denoted S2' and S3', respectively). Ferricyanide was added to the samples to act as an exogenous electron acceptor. Using EPR spectroscopy, it was shown that, under the experimental conditions used, only the species oxidized in the S3' state was detected during the time required for the acquisition of the FTIR difference spectra. No contributions from the electron acceptor side were observed. The corresponding S3'/S2' FTIR difference spectra were recorded at 10 degrees C in H2O, D2O, and with 15N-labeled photosystem II membranes. Spectra were compared with radical-minus-neutral FTIR difference spectra of amino acid model compounds generated by UV irradiation at low temperature. Under our experimental conditions, we did not observe FTIR difference signals consistent with tyrosine oxidation in the S2' to S3' transition. The infrared signals characteristic of radical formation with 4-methylimidazole and histidine obtained by UV irradiation of 4-methylimidazolium at pH 6 and of a His-Tyr dipeptide at pH 7 are presented. The analogy found between these spectra and the S3'/S2' spectrum obtained in situ supports the oxidation of a histidinium in the S2' to S3' transition.