Macromolecular organization of collagen fibres in natural and tanned basement membrane

The elastic constants and ultrastructure of natural and tanned basement membrane of the crystalline lens of the adult rat have been investigated. Sonicated and negatively stained specimens of both membranes show parallel filaments that have similar spacing of 3.5(+/- 0.1) nm and a different periodicity. In natural membrane the periodicity is 3.7(+/- 0.13) nm, whilst in tanned basement membrane the periodicity is 3.2(+/- 0.15) nm. The periodicity ratio of tanned membrane to natural membrane was 0.86 +/- 0.04, whilst the elongation ratio of tanned membrane compared with natural membrane was 0.88 +/- 0.05. In contrast to this, the thickness ratio of tanned to natural membrane was 1.098 +/- 0.045. Tanned basement membrane showed a shrinkage of 12% in length but an increase in thickness of about 10%. These data suggest, firstly, that the degree of extension of the superhelices of the filaments follows closely the degree of extension of the intact membrane and, secondly, that the coiled superhelices of tanned membrane have an angle of tilt of about 42 degrees compared with those of natural membrane, where the angle is about 50 degrees. The Young's modulus of elasticity and ultimate stress of tanned basement membrane are, respectively, eight times greater and one-third as great as natural membrane. The entropy change in basement membrane was calculated from the external work necessary to extend the tanned membrane, and was estimated to be -13.5(+/- 2.4) J K-1 mol-1. An estimate of the change in entropy from thermodynamic measurements made on a suspension of collagen tanned with glutaraldehyde was found to be -30.1(+/- 9.5) J K-1 mol-1. The two different estimates of the change in entropy of collagen following tanning suggest that in basement membrane only about 45% of the collagenous protein has an extensile helical structure.