Incomplete sex chromosome pairing in oligospermic male hybrids of Mus musculus and M. musculus molossinus in relation to the source of the Y chromosome and the presence or absence of a reciprocal translocation

Abstract

Summary. A series of backcrosses of T70H/+ F_, Mus musculus × Mus m. molossinus females × T70H/T70H Mus musculus males and of a +/+ F₁ Mus musculus × M. m. molossinus male × T70H/T70H and +/+ Mus musculus females were set up to produce T70H/+ B₁ males with a Y chromosome of the 'musculus' (Y) or 'molossinus' (Y*) type, and males with T70H/T70H Y and +/+ Y* karyotypes. Observations of late diplotene—metaphase 1 meiosis were carried out, besides estimates of the number of spermatozoa in the caput epididymidis and the frequency of abnormal sperm mophology. From two T70H/+ F₁ sterile males, 114 pachytene spermatocytes were scored through the electron microscope after whole mount spreading on copper grids. It was concluded that: (1) the T70H/+ F_, and B_, mice showed higher chiasma frequencies than did T70H/+ mice on a random-bred Swiss genetic background; (2) despite this effect, X,Y univalence frequently occurred in all karyotypes and there was a significant correlation (0·81) between the sperm count and the fraction of primary spermatocytes with X,Y univalents; (3) within the T70H/+ F_, males, the sex chromosomes were unpaired in 36·8% of the pachytene spermatocytes scored, and when paired, the pairing segment was generally half the value of that for control spermatocytes; (4) the frequency of X,Y univalence was influenced by the source of the Y chromosome but not by the presence of translocation heterozygosity. Within the B_, karyotypes, autosomal genetic factors must also be important for regulating pairing behaviour; (5) the presence of a reciprocal translocation, independent of X,Y chromosome pairing, also affected the reduced sperm production in the hybrids; (6) spermatozoa of abnormal morphology were frequently produced, especially in the B_, groups with translocation heterozygosity or homozygosity. The deviant shapes were associated with these factors and with the hybrid genetic background but not directly with the numbers of spermatozoa produced.