控制对H-2.2同种抗原反应性的免疫反应基因的偶联互补作用。
Coupled complementation of immune response genes controlling responsiveness to the H-2.2 alloantigen.
作者信息
Dorf M E, Stimpfling J H
出版信息
J Exp Med. 1977 Aug 1;146(2):571-8. doi: 10.1084/jem.146.2.571.
Abstract
The ability of various B10 congenic resistant strains to respond to the alloantigen H-2.2 was tested. High and low antibody-producing strains were distinguished by their anti-H-2.2 hemagglutinating respones. However, these strains do not differ in their ability to respond to these antigenic differences in the mixed lymphocyte culture. The humoral response to the H-2.2 alloantigen was shown to be controlled by two interacting genes localized within the H-2 complex. Thus, F1 hybrids prepared between parental low responder strains could yield high level immune responses. In addition, strains bearing recombinant H-2 haplotypes were used to map the two distinct genes controlling the immune response. The alleles at each locus were shown to be highly polymorphic as evidenced by the asymmetric complementation patterns observed. The restricted interactions of specific alleles was termed coupled complementation. The significance of the results in the terms of mechanisms of Ir gene control are discussed.
摘要
测试了各种B10同源抗性品系对同种异体抗原H-2.2的反应能力。通过它们对H-2.2的血凝反应区分出高抗体产生品系和低抗体产生品系。然而,这些品系在混合淋巴细胞培养中对这些抗原差异的反应能力并无差异。对H-2.2同种异体抗原的体液反应显示受位于H-2复合体内的两个相互作用基因控制。因此,亲本低反应品系之间制备的F1杂种可产生高水平的免疫反应。此外,携带重组H-2单倍型的品系被用于定位控制免疫反应的两个不同基因。如观察到的不对称互补模式所示,每个位点的等位基因显示出高度多态性。特定等位基因的受限相互作用被称为偶联互补。讨论了这些结果在Ir基因控制机制方面的意义。
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