Tetrahydrobiopterin analogues: solution conformations of 6-methyltetrahydropterin, 7-methyltetrahydropterin, and cis- and trans-6,7-dimethyltetrahydropterins as determined by proton nuclear magnetic resonance.

Abstract

The conformation of tetrahydrobiopterin analogues in aqueous solution at 23 degrees C has been determined by analyzing the 200-MHz 1H NMR spectral parameters of the enzymatically active 6-methyltetrahydropterin, 7-methyltetrahydropterin, and cis- and trans-6,7-dimethyl-5,6,7,8-tetrahydropterins. Each of these cofactors, with the exception of the cis-6,7-dimethyl isomer, exhibited an unusually small trans 6H-7H spin-spin coupling (8.5-9.1 Hz). An empirical equation that accounts for the effects of substituent electronegativity and orientation on vicinal couplings [Haasnoot, C. A. G., deLeeuw, F. A. A. M., & Altona, C. (1980) Tetrahedron 36, 2783-2792] predicted this coupling to be 11.3-11.6 Hz. We attribute the discrepancy between the calculated and experimentally observed values of this coupling to hyperconjugation of the axially oriented C7-H bond with the pi orbital of the vinylogous amide protein of the pterin ring (N8-C8a = C4a-C4 = O) rather than conformational averaging. The trans 6H-7H interproton distance in the 6-methyl analogue is calculated to be 3.0 A from the measured decrease in the spin-lattice relaxation rate of the axially oriented C7 proton after specific deuteration at C6. This is consistent with the single-conformer interpretation. Chemical shift comparisons of the methyl resonances of these analogues, NOE measurements from selectively deuterated analogues, and the differential sensitivities of axially vs. equatorially disposed ring protons to protonation at N5 all indicate that (i) the methyl substituents at both the C6 and C7 positions markedly prefer equatorial-like orientations and (ii) the tetrahydropterin ring is, with the exception of a pronounced pucker at C6, nearly planar.(ABSTRACT TRUNCATED AT 250 WORDS)