Uyenoyama M K
Department of Zoology, Duke University, Durham, North Carolina 27706.
Genetics. 1989 Jan;121(1):139-51. doi: 10.1093/genetics/121.1.139.
A quantitative model is developed to explore the effects of prezygotic and postzygotic incompatibility on the origin and maintenance of associations between the major histocompatibility complex (MHC) and the t-complex in the mouse. Incompatibility is represented by a reduction in the rate of conception or gestation of offspring derived from sperm bearing MHC antigens in common with the mother. Incompatibility encourages the evolution of associations from a state of complete independence between the two complexes by promoting the invasion of all novel antigens, including those that exhibit associations with the t-complex. Incompatibility can modify the relative numbers of antigens associated with each haplotype by actively promoting the exclusion or invasion of recombinants that bear formerly +-specific or t-specific antigens on the alternative haplotype. The results of the analysis indicate that the state of complete independence between the MHC and the t-complex is not preserved over evolutionary time in the presence of incompatibility. Further, the expression of incompatibility maintains fully associated states that include a single antigen associated with the t-haplotype and up to three to five antigens associated with the +-haplotype within a single population.
开发了一种定量模型,以探讨合子前和合子后不相容性对小鼠主要组织相容性复合体(MHC)与t复合体之间关联的起源和维持的影响。不相容性表现为来自与母亲具有共同MHC抗原的精子的后代受孕率或妊娠率降低。不相容性通过促进所有新抗原的侵入,包括那些与t复合体表现出关联的抗原,来鼓励这两个复合体从完全独立的状态进化出关联。不相容性可以通过积极促进在替代单倍型上携带以前的+-特异性或t特异性抗原的重组体的排斥或侵入,来改变与每个单倍型相关的抗原的相对数量。分析结果表明,在存在不相容性的情况下,MHC和t复合体之间的完全独立状态在进化过程中无法保持。此外,不相容性的表达维持了完全关联的状态,在单个种群中包括与t单倍型相关的单一抗原以及与+-单倍型相关的多达三到五种抗原。