Normal‐mode analysis of the Raman‐active modes of the anti‐tumor agent 6‐mercaptopurine

The Raman spectra of the antitumor agent 6‐mercaptopurine (6MP) in the solid and solution state were recorded in the 600–1700 cm −1 spectral region. The normal modes of 6MP were calculated using a Urey–Bradley empirical force field (UBFF) and with the PM3 semi‐empirical method. Prior to performing the normal‐mode calculations on 6MP, similar calculations were performed on methanethiol and thiophenol. The force constant parameters obtained from these calculations were then transferred to the 6MP calculations. The results of the normal‐mode calculations were compared with the observed spectra and an assignment of the vibrational modes is proposed. Based on changes in the wavenumbers of the Raman spectra between the solution and solid form 6MP and on normal‐mode calculations, it is proposed that in the solid form 6MP crystallizes in the tautomer form whereas in solution the molecule ionizes by losing the hydrogen at the N‐1 position. Copyright © 2000 John Wiley & Sons, Ltd.