Doerder F P, Berkowitz M S, Skalican-Crowe J
Genetics. 1985 Oct;111(2):273-86. doi: 10.1093/genetics/111.2.273.
Multiple alleles at the SerH locus specify the major cell surface protein (immobilization antigen) of the ciliate Tetrahymena thermophila. Following mutagenesis of SerH1 homozygotes, two mutations, H1-1 and H1-2, were recovered in heterozygous form. Mutant homozygotes do not express H1 antigen, nor is H1 expressed in F1 progeny of crosses to wild-type strains homozygous for SerH2 or SerH3. H1-1 and H1-2 segregate without recombination from these wild-type alleles in expected F2 and testcross Mendelian ratios. H1-1 and H1-2 do, however, complement each other to express H1 antigen. Experiments suggest this complementation is due neither to recombination during macronuclear development nor to interallelic complementation of defective SerH1 gene products. These results suggest that SerH1 is intact in one mutant, and possibly both, although no such allele has been segregated in testcross progeny (N = 205). The hypothesis is presented that complementation between H1-1 and H1-2 is due to interaction between allele-specific regulators closely linked to the SerH1 gene.
嗜热四膜虫的SerH基因座上的多个等位基因决定了其主要细胞表面蛋白(固定抗原)。对SerH1纯合子进行诱变后,以杂合形式获得了两个突变体H1-1和H1-2。突变纯合子不表达H1抗原,在与SerH2或SerH3纯合的野生型菌株杂交的F1后代中也不表达H1。在预期的F2和测交孟德尔比率中,H1-1和H1-2与这些野生型等位基因不发生重组而分离。然而,H1-1和H1-2相互互补以表达H1抗原。实验表明,这种互补既不是由于大核发育过程中的重组,也不是由于有缺陷的SerH1基因产物的等位基因间互补。这些结果表明,SerH1在一个突变体中是完整的,可能在两个突变体中都是完整的,尽管在测交后代(N = 205)中没有分离出这样的等位基因。有人提出假说,H1-1和H1-2之间的互补是由于与SerH1基因紧密连锁的等位基因特异性调节因子之间的相互作用。