Ruvinsky A, Agulnik A, Agulnik S, Rogachova M
Institute of Cytology and Genetics, Academy of Sciences of the USSR, Siberian Division.
Genetics. 1991 Apr;127(4):781-8. doi: 10.1093/genetics/127.4.781.
Analysis of the functional nature of mutations can be based on comparisons of their manifestation in organisms with a deletion or duplication of a particular chromosome segment. With the use of reciprocal translocation T(16;17)43H, it is feasible to produce mice with tertiary trisomy of the proximal region of chromosome 17. The mutations on chromosome 17 we tested included brachyury (T), hairpin tail (Thp), kinky (Fuki), quaking (qk), tufted (tf), as well as tct (t complex tail interaction), and tcl (t complex lethal) that are specific to t haplotypes. The set of dominant and recessive mutations was assigned to two groups: one obligatory, manifesting itself in the phenotype independently of the number of normal alleles in di- and trisomics, and the other facultative, phenotypically manifesting itself depending upon the dosage of mutant alleles. A model was derived from analysis of the interaction of the T and Thp mutations with t haplotypes. It seeks to explain the morphogenetic effects of the mutations observed in mice of different genotypes. The tir gene is postulated to reside on chromosome 17 within its framework. It is suggested that the gene dosage ratio at the tir and tct loci determines tail length.
对突变功能性质的分析可以基于对其在特定染色体片段存在缺失或重复的生物体中的表现进行比较。利用相互易位T(16;17)43H,可以培育出具有17号染色体近端区域三级三体的小鼠。我们测试的17号染色体上的突变包括短尾基因(T)、发夹尾(Thp)、卷曲(Fuki)、颤抖(qk)、簇状(tf),以及t单倍型特有的tct(t复合体尾部相互作用)和tcl(t复合体致死)。显性和隐性突变集被分为两组:一组是强制性的,其表型表现与二体和三体中正常等位基因的数量无关;另一组是兼性的,其表型表现取决于突变等位基因的剂量。通过对T和Thp突变与t单倍型相互作用的分析得出了一个模型。它试图解释在不同基因型小鼠中观察到的突变的形态发生效应。推测tir基因位于17号染色体的该框架内。有人提出,tir和tct位点的基因剂量比决定尾巴长度。