The interaction of triton X-100 with soluble proteins: Possible implications for the transport of proteins across membranes

Abstract

Dodecyl sulfate complexes of two soluble proteins, serum albumin and fumarase, have been “renatured” with large excesses of the nonionic detergent Triton X-100. The resulting complexes, essentially free of dodecyl sulfate, differ in their sedimentation properties relative to the native protein and in their interaction with Triton X-100. Albumin molecules refold to a form binding only very small amounts of Triton and have a sedimentation coefficient similar to that of the non-denatured protein. On the other hand, refolded fumarase molecules have a lower sedimentation coefficient than that of the native enzyme and bind up to 1.06 mg of Triton/mg protein. It is postulated that the fumarase molecule has been turned “inside-out” by the dodecyl sulfate/Triton treatment, and the implications of such large conformational changes for protein transport across membranes are discussed.