Localization of Zinc in a Dense Fiber-Connecting Piece Fraction of Rat Sperm Tails Analogous Chemically to Hair Keratin

doi:10.1095/biolreprod13.2.228

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Localization of Zinc in a Dense Fiber-Connecting Piece Fraction of Rat Sperm Tails Analogous Chemically to Hair Keratin

HAROLD I. CALVIN ¹, FRANCES H.-F. HWANG ¹, , and HERMA WOHLRAB ¹

¹ International Institute for the Study of Human Reproduction Columbia University, College of Physicians and Surgeons New York, NY 10032

The intracellular distribution of zinc in mature rat spermwas examined by subcellular fractionation and atomic absorptionspectrophotometry. The results indicate that >90 percentof this trace metal is located in the tail, ca. 85 percent in-S-S-crosslinked tail structures which do not disintegrate in1 percent sodium dodecyl sulfate (SDS). Association of zincwith -SH is supported by the primary localization of the latterwithin the same SDS-insoluble material. The concentrations ofboth zinc and -SH decrease in the heads and tails of rat spermduring passage through the epididymis. Of the minor fractionof zinc in the rat sperm head (5-10 percent), >75 percentis not extracted with SDS and therefore appears also to be associatedwith -S-S-bonded structures.

Over 75 percent of the zinc inisolated tails is retained by a subfraction which consists mainly ofdense fibers, with connecting pieces present as a minor constituent,and is largely non-dialyzable upon solubilization of these structures.The major component isolated from the solubilized product, followingaminoethylation, is of 35,000 mol. wt. Polyacrylamide gel electrophoresisin SDS also reveals significant components of ca. 75,000, 25,000and 15,000 mol. wt. and trace components of 90,000, 70,000 and50,000 mol wt. The amino acid composition of this protein mixtureincludes 11-12 percent cysteine and is found to be strikinglysimilar to the overall compositions of wool and guinea pig hair,which also possess sizeable contents of stably-bound zinc. Thepossibilities that the proteins of hair and sperm keratin (i.e.-kerateines)share a common phylogenetic origin and undergo similar interactionswith zinc during macromolecular assembly are therefore noted.
Submitted on April 22, 1975
Accepted on June 4, 1975

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