13C magnetic resonance evidence for anisotropic molecular motion in collagen fibrils

Relaxation times and integrated intensities have been obtained from dipolar decoupled ¹³C magnetic resonance spectra of reconstituted fibrils of chick calvaria collagen enriched at the glycine C^a and C′ positions. The data obtained are consistent with a model in which collagen molecules reorient about the long axis of the helix with a rotational diffusion constant (R₁) of ~10⁷ s^?1, a value similar to that expected for the helix in solution. Data obtained from natural abundance ¹³C spectra of native (crosslinked) calf achilles tendon and rat tail tendon provide evidence of rapid anisotropic reorientation for at least 75% of the carbons in these tissues. Hence, our preliminary data indicate that, in these materials, the intermolecular interactions in the fibrilar collagen lattice can accommodate rapid reorientation at a majority of carbon sites.