Mechanochemical studies of enzymatic degradation of insoluble collagen fibers

Tlie corrclatioii lx\*t\vccii niecliaiiical and chemical processes ill the coiitractilc system c~llageii fibers-aqueous l<CSS solutions was investigated. Meltiiig and coiltraction of the fibers here induced by applying a force sufficiently high as to prevent melting in a KCNS solution arid then decr

Collagoii fibers were contracted "chemically," ix., by trailsferring them from water Both changes in force and The The diffusion of The role of water in the melting process is dis-into KCNS solutions either isometrically or isotonically. fiber length and in salt and water contents were measured as f

The isometric tensile stress generation observed when collagen fibers are immersed in aqueous solutions of lithium bromide ranging in molar concentration up to 7 was studied a t 23°C. The reverse process, namely, isomet,ric stress relaxation of the fiber occurring by subsequent immersion in distille

Mechanical melting experiments performed on collagen fibers were used to study the effect of crosslinking on contraction kinetics. With the aid of a two-state model it is shown that the degree of cooperativity of this dematuration process is increasing with the degree of crosslinking.

## Abstract The tensile force‐contraction characteristics of cross‐linked reconstituted collagen fibers have been studied for 30 different water‐soluble reagents. The data were obtained via a “polytonic” loading technique, which was neither isometric nor isotonic. Certain data were found to fit a m

## Abstract Uniform LiDNA fiber specimens of nearly 20 m length have been prepared with a wet‐spinning method developed by the author. Samples immersed in the spinning bath (80% ethyl alcohol containing 0.4__M__ LiCl) have been subjected to mechanochemical study involving stretching, relaxation, an