Hydroxyproline content determines the denaturation temperature of chick tendon collagen

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Abstract

A series of nine procollagen samples in which the hydroxyproline content varied from <1% to 44% of the total imino acids was prepared by incubating embryonic chick tendon cells with varying concentrations of α,α′-dipyridyl, an inhibitor of proline hydroxylase. The thermal stability of these procollagen preparations was then investigated by using pepsin digestion at different temperatures as an enzymatic probe of conformation. Using this technique, the denaturation temperature of the procollagen was found to be directly proportional to the hydroxyproline content. A denaturation temperature of 23.5 °C was found for the unhydroxylated procollagen and 37.9 °C for fully hydroxylated procollagen. These results suggest that hydroxyproline is crucial to the thermal stability of the collagen triple helix. They also imply that unhydroxylated molecules are not triple helical within the cell at 37 °C and that triple helix formation may be necessary for normal secretion.

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    Supported by National Institutes of Health research grants AM-14439, AM-14526, RR-107, the National Institute of Dental Research USPHS grant DE-02623, and the American Heart Association grant 70717.

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