Resonance Raman spectroscopic and kinetic consequences of a nitrogen ... sulphur enzyme-substrate contact in a series of dithioacylpapains.

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)