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Biophysical Journal 63: 191-196 (1992)
© 1992 the Biophysical Society
Institute for Biological Sciences, National Research Council of Canada, Ottawa, Ontario.
ABSTRACT
The resonance Raman (RR) spectroscopic, conformational, and kinetic properties of six dithioacylpapain intermediates have been examined. Five of the intermediates are of the form N-(methyloxycarbonyl)-X-glycine-C(= S)S-papain, where X is L-phenyl-alanine, D-phenylalanine, glycine, L-phenylglycine, or D-phenylglycine. The sixth intermediate is N-phenylacetyl-glycine-C(= S)S-papain. Throughout the series there is an approximately 50-fold variation in kcat, the rate constant for deacylation, and a 1750-fold variation in kcat/KM. Existing RR spectra structure correlations allow us to define the torsional angles in the NH-CH2-C(= S)-S-CH2-CH fragment of the functioning intermediates. The values of these angles for each bound substrate appear to be very similar, with the substrates assuming a B-type conformer such that the nitrogen atom of the P1 glycine residue is cis to the thiol sulphur atom of cysteine-25. For each intermediate, the C(= S)S-CH2CH torsional angle is approximately -90 degrees, whereas for the SCH2-CH torisonal angle the cysteine-25 thiol sulphur (S) and cysteine-25 C alpha hydrogen (H) atoms are approximately trans. The three acyl-enzymes with the lowest catalytic rate constants, viz. N-(methyloxycarbonyl)-glycine-glycine-, N-(methyloxycarbonyl)-L-phenylglycine-glycine-, or N-(phenylacetyl)-glycine-dithioacylpapains, have atypical RR spectra in that they show a feature of medium intensity in the 1,085-cm-1 region. This band is sensitive to NH to ND exchange of the P1 glycine residues' (-NH-) function and, thus, the corresponding mode involves an excursion of the NH hydrogen.(ABSTRACT TRUNCATED AT 250 WORDS)
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