References
- Alfert M. Chemical differentiation of nuclear proteins during spermatogenesis in the salmon. J Biophys Biochem Cytol 1956; 2: 109–114
- Andersson G KA. Histochemical properties of spermatozoa and somatic cells. III. De-polymerization and extraction of DNA during Feulgen hydrolysis. Histochem 1965; 48: 315–324
- Austin C R. The mammalian egg. Blackwell Scientific Publications, Oxford 1961; 24–25
- Bedford J M, Bent M J, Calvin H. Variations in the structural character and stability of the nuclear chromatin in morpholically normal human spermatozoa. J Reprod Fertil 1973; 33: 19–29
- Calvin H, Bedford J M. Formation of di-sulphide bonds in the nucleus and accessory structures of mammalian spermatozoa during maturation in the epididymis. J Reprod Fertil [Suppl] 1971; 13: 65–75
- Emik L O, Sidwell G M. Factors affecting the estimation of concentration of sperm in ram's semen by the photoelectric method. J Animal Sci 1947; 6: 467–475
- Gledhill B L, Gledhill M P, Rigler R, Ringertz N R. Changes in deoxyribonuclein during spermatogenesis in the bull. Exp Cell Res 1966; 41: 652–665
- Kvist U. Sperm nuclear chromatin decondensation ability. An in vitro study on ejaculated human spermatozoa. Acta Physiol Scand [Suppl 486] 1980; 1–24
- Reynolds J A, Tanford C. Binding of dodecyl sulphate to proteins at high binding ratios. Possible implications for the state of proteins in biological membranes. Proc Nat Acad Sci USA 1970; 66: 1002–1007
- Zamboni L. Fine morphology of mammalian fertilization. Harper & Row, New York 1971; 26–31