黑腹果蝇一个包含乙醇脱氢酶结构基因的小染色体区域的遗传学。IV:盾形,一种反效等位基因突变。
The genetics of a small chromosome region of Drosophila melanogaster containing the structural gene for alcohol dehydrogenase. IV: scutoid, an antimorphic mutation.
作者信息
Ashburner M, Tsubota S, Woodruff R C
出版信息
Genetics. 1982 Nov;102(3):401-20. doi: 10.1093/genetics/102.3.401.
Abstract
Exchange mapping locates the dominant mutation Scutoid to the right of Adh on chromosome arm 2L of D. melanogaster. However, deletion mapping indicates that Sco is to the left of Adh. The phenotype of Sco is sensitive to mutation, or deletion, of noc+ and of three genes, el, l(2)br22, and l(2)br29 mapping immediately distal to noc. The four contiguous loci, el, l(2)br22, l(2) br29 and noc, although separable by deletion end points, interact, because certain (or all) alleles of these four loci show partial failure of complementation, or even negative complementation. The simplest hypothesis is that Sco is a small reciprocal transposition, the genes noc, osp, and Adh exchanging places with three genes normally mapping proximal to them: l(2)br34, 1(2)br35 and rd. The Sco phenotype is thought to result from a position effect at the newly created noc/l(2)br28 junction.
摘要
交换作图将显性突变Scutoid定位在黑腹果蝇2L染色体臂上Adh的右侧。然而,缺失作图表明Sco在Adh的左侧。Sco的表型对noc +以及紧挨着noc向远端定位的三个基因el、l(2)br22和l(2)br29的突变或缺失敏感。四个相邻的基因座el、l(2)br22、l(2)br29和noc,尽管可通过缺失端点分开,但它们相互作用,因为这四个基因座的某些(或所有)等位基因显示出部分互补失败,甚至是负互补。最简单的假设是Sco是一个小的相互易位,基因noc、osp和Adh与通常定位在它们近端的三个基因交换位置:l(2)br34、1(2)br35和rd。Sco表型被认为是由新产生的noc/l(2)br28连接处的位置效应导致的。
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本文引用的文献
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Genetic and cytogenetic analysis of the Adh region in Drosophila melanogaster.黑腹果蝇乙醇脱氢酶(Adh)区域的遗传与细胞遗传学分析。
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