Sperm from tw32/+ mice: capacitation is normal, but hyperactivation is premature and nonhyperactivated sperm are slow.

[1]  P. Olds-Clarke,et al.  Genetic analysis of sperm function in fertilization. , 1988, Gamete research.

[2]  B. Shur,et al.  Protein-carbohydrate complementarity in mammalian gamete recognition. , 1988, Gamete research.

[3]  D. Green,et al.  SPERM THRUSTS AND THE PROBLEM OF PENETRATION , 1988, Biological reviews of the Cambridge Philosophical Society.

[4]  P. Olds-Clarke,et al.  A computer-assisted assay for mouse sperm hyperactivation demonstrates that bicarbonate but not bovine serum albumin is required. , 1987, Gamete research.

[5]  J. Corselli,et al.  In vitro penetration of hamster oocyte-cumulus complexes using physiological numbers of sperm. , 1987, Developmental biology.

[6]  P. Olds-Clarke,et al.  Motility characteristics of sperm from the uterus and oviducts of female mice after mating to congenic males differing in sperm transport and fertility. , 1986, Biology of reproduction.

[7]  B. Peitz,et al.  Fertility of sperm from t/+ mice: evidence that +-bearing sperm are dysfunctional. , 1986, Genetical research.

[8]  L. Haimo,et al.  Motile cells lacking hyaluronidase can penetrate the hamster oocyte cumulus complex. , 1985, Developmental biology.

[9]  P Olds-Clarke,et al.  Linear and nonlinear mouse sperm motility patterns. A quantitative classification. , 1985, Journal of andrology.

[10]  L. Silver Mouse t haplotypes. , 1985, Annual review of genetics.

[11]  B. T. Storey,et al.  Binding of mouse spermatozoa to the zonae pellucidae of mouse eggs in cumulus: evidence that the acrosomes remain substantially intact. , 1984, Biology of reproduction.

[12]  P. Wassarman,et al.  Enzymatic dissection of the functions of the mouse egg's receptor for sperm. , 1984, Developmental biology.

[13]  L. Silver,et al.  Transmission ratio distortion of mouse t haplotypes is not a consequence of wild-type sperm degeneration. , 1984, Developmental biology.

[14]  B. T. Storey,et al.  Determination of the time course of capacitation in mouse spermatozoa using a chlortetracycline fluorescence assay. , 1984, Developmental biology.

[15]  M. C. Chang,et al.  The meaning of sperm capacitation. A historical perspective. , 1984, Journal of andrology.

[16]  P. Olds‐Clarke Nonprogressive sperm motility is characteristic of most complete t haplotypes in the mouse. , 1983, Genetical research.

[17]  P Olds-Clarke,et al.  The nonprogressive motility of sperm populations from mice with a tw32 haplotype. , 1983, Journal of andrology.

[18]  J. Bedford,et al.  Significance of the need for sperm capacitation before fertilization in eutherian mammals. , 1983, Biology of reproduction.

[19]  P. Olds‐Clarke,et al.  Genetic background affects expression of t haplotype in mouse sperm. , 1982, Genetical research.

[20]  B. Shur Galactosyltransferase activities on mouse sperm bearing multiple tlethal and tviable haplotypes of the T/t-complex. , 1981, Genetical research.

[21]  D. Katz,et al.  Movement characteristics of hamster and guinea pig spermatozoa upon attachment to the zona pellucida. , 1981, Biology of reproduction.

[22]  S. Tessler,et al.  Mouse sperm motility affected by factors in the T/t complex. , 1981, The Journal of experimental zoology.

[23]  S. Tessler,et al.  Male genotype influences sperm transport in female mice. , 1981, Biology of reproduction.

[24]  P. Gaddum-Rosse Some observations on sperm transport through the uterotubal junction of the rat. , 1981, The American journal of anatomy.

[25]  R. Yanagimachi Mechanisms of Fertilization in Mammals , 1981 .

[26]  B. Shur,et al.  A specific defect in galactosyltransferase regulation on sperm bearing mutant alleles of the T/t locus. , 1979, Developmental biology.