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Abstract

Valence and C1s core level photoelectron spectra of gaseous alanine have been recorded with synchrotron radiation. Using ab initio Green's Function calculations of the vertical outer valence ionization energies and CMS-Xalpha calculations of the orbital ionization cross-sections, it is possible to account well for the features of both the new hv = 92 eV valence photoelectron spectrum and also its differences with an earlier hv = 21.2 eV spectrum. Good agreement may be achieved by considering just the contribution of a single molecular conformation. This agrees with previous experimental findings, but conflicts with calculations which suggest that a range of molecular conformations would coexist in an equilibrium sample. A study of the valence photoelectron spectrum of the amino acid threonine complements that of alanine, but unlike the latter is limited by the effects of thermal decomposition of the sample. The C1s core level spectrum of alanine is reported and its peaks are assigned to ionization of the three C atoms in the molecule. A fourth minor peak that is observed is tentatively assigned to a peptide (C) under bar ONH2 linkage which may be formed between alanine monomers.