The intermolecular space of reconstituted collagen fibrils

The extent, geometry and heterogeneity of the intermolecular space of hydrated, purified and reconstituted steer skin collagen fibrils has been characterized. The extent of the space has been assessed experimentally by an X-ray diffraction method and a new physical chemical technique, and found to be 1.14 ml per gram collagen. A theoretical model relating the intermolecular space to X-ray diffraction parameters has been presented, and this suggests that the geometry of the intermolecular space arises from a near-hexagonal packing of the collagen molecules. On the basis of an assumed microfibrillar packing model and a geometric construction of the shape of a collagen molecule, the distribution of the space within reconstituted collagen fibrils has been characterized as follows: 0.13 ml of the intermolecular space/g collagen can be attributed to the helical groove of the collagen molecules per se and 1.01 ml/g is interstitial; 0.66 ml/g is present in the form of “pores” (hexagonally-closed packed spaces), whereas 0.48 ml/g is present in the form of “holes” (hexagonal volume defects); 0.73 ml/g of the intermolecular space is associated with a region of the collagen fibrils where holes are localized and 0.41 ml/g is attributable to the regions of the fibril in which pores only are present.