小鼠β-半乳糖苷酶电泳和活性的遗传决定因素的连锁关系。
Linkage of genetic determinants for mouse beta-galactosidase electrophoresis and activity.
作者信息
Breen G A, Lusis A J, Paigen K
出版信息
Genetics. 1977 Jan;85(1):73-84. doi: 10.1093/genetics/85.1.73.
Abstract
An electrophoretic polymorphism for beta-galactosidase has been identified among common inbred strains of mice. It is inherited as a single Mendelian factor with two alleles showing codominant expression. This structural gene, Bge, is closely linked (0/163 recombinants) with the Bgs site on chromosome 9 which regulates systemic levels of beta-galactosidase. The distribution of electrophoretic and activity phenotypes among inbred strains is not concordant, indicating that they result from separate mutations. Three aspects of beta-galactosidase realization, its structure, systemic regulation and developmental program, are now known to be organized in close proximity on chromosome 9. Considered in conjuction with evidence from other mammalian systems, this suggests that the mammalian genome, like Drosophila, is organized into large functional units in which relevant regulatory and developmental information is closely associated with individual structural genes.
摘要
在常见的近交系小鼠中发现了β-半乳糖苷酶的电泳多态性。它作为一个单孟德尔因子遗传,有两个等位基因,表现为共显性表达。这个结构基因Bge与9号染色体上调节β-半乳糖苷酶全身水平的Bgs位点紧密连锁(0/163个重组体)。近交系中电泳和活性表型的分布不一致,表明它们是由不同的突变产生的。现已知道,β-半乳糖苷酶实现过程的三个方面,即其结构、全身调节和发育程序,在9号染色体上紧密排列。结合其他哺乳动物系统的证据来看,这表明哺乳动物基因组与果蝇一样,被组织成大型功能单元,其中相关的调节和发育信息与单个结构基因紧密相关。
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