Department of Zoology, University of California, Berkeley, Calif. 94720.
Genetics. 1979 Jan;91(1):105-25. doi: 10.1093/genetics/91.1.105.
Radiation-induced chromosomal rearrangements of h(+) have given rise to several Drosophila stocks that exhibit apparent position-effect inactivation; i.e., flies carrying the rearranged chromosomes heterozygously with h show varying degrees of hairiness. The numbers of hairy chaetae produce a quantifiable index of position effect. Six such "position-allele" stocks are here discussed, both as to their basic expressions and in all possible pair-wise combinations with each other. Such crosses reveal complex interactions between the respective position alleles; little evidence is seen for clear-cut dominance or recessiveness. The stocks appear not to conform unequivocally to classical distinctions between variegated and stable types of position effects, nor to usual dicta relating the degree of inactivity to the proximity to heterochromatin. Indeed, these stocks appear to suggest additional dimensions to several of the principles to which position effects usually subscribe. The evidence additionally suggests that the hairy locus itself is associated with a tissue-specific suppressor effect on an otherwise polygenic system that produces the chaetae associated with the hairy phenotype.
h(+)的辐射诱导染色体易位导致了几个表现出明显位置效应失活的果蝇品系;即携带易位染色体的杂合 h 的果蝇表现出不同程度的多毛性。多毛的触须数量产生了位置效应的定量指标。本文讨论了六个这样的“位置等位基因”品系,包括它们的基本表达和彼此之间的所有可能的两两组合。这些杂交揭示了各自位置等位基因之间的复杂相互作用;几乎没有明显的显性或隐性证据。这些品系似乎不符合经典的位置效应的斑驳型和稳定型之间的明确区分,也不符合与非活性程度与异染色质接近有关的一般准则。事实上,这些品系似乎为位置效应通常遵循的几个原则提供了额外的维度。此外,该证据表明,多毛基因座本身与一个组织特异性的抑制因子相关,该抑制因子作用于一个多基因系统,该系统产生与多毛表型相关的触须。