一种母性效应突变，导致果蝇成虫出现器官缺陷和同源异型转化。

A maternal effect mutation leading to deficiencies of organs and homeotic transformations in the adults ofDrosophila.

作者信息

Forquignon Françoise

机构信息

Centre de Génétique Moléculaire, C.N.R.S., F-91, Gif-sur-Yvette, France.

出版信息

Wilehm Roux Arch Dev Biol. 1981 May;190(3):132-138. doi: 10.1007/BF00867798.

DOI:10.1007/BF00867798

PMID:28305162

Abstract

The temperature sensitive mutationfs(l)h is characterized at the restrictive temperature of 29°C by both a maternal effect responsible for the early embryonic lethality and pupal zygotic lethality. The two phenotypes are inseparable and map at a short deletion in the X chromosome (7Dl, 7D5-6). At semipermissive temperatures, hemizygous mutant females produce adults with morphological defects, such as organ deficiencies and homeotic transformations of haltere to wing and third leg to second leg. These defects depend on the maternal genotype and are governed by an early temperature sensitive period, which covers the end of oogenesis and the first hours of embryogenesis. Furthermore, this maternal effect mutation interacts with some dominant mutations of the bithorax system. These properties suggest thatfs(l)h is somehow involved in segmental determination.

摘要

温度敏感突变体 fs(l)h 在 29°C 的限制温度下具有两种特征，一种是导致早期胚胎致死的母体效应，另一种是蛹期合子致死。这两种表型不可分割，位于 X 染色体上的一个短缺失区域（7D1，7D5 - 6）。在半允许温度下，半合子突变雌性产生具有形态缺陷的成虫，如器官缺陷以及平衡棒向翅膀、第三腿向第二腿的同源异型转化。这些缺陷取决于母体基因型，并受一个早期温度敏感期控制，该敏感期涵盖卵子发生末期和胚胎发生的最初几个小时。此外，这种母体效应突变与双胸系统的一些显性突变相互作用。这些特性表明 fs(l)h 以某种方式参与了体节决定。

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一种母性效应突变，导致果蝇成虫出现器官缺陷和同源异型转化。

A maternal effect mutation leading to deficiencies of organs and homeotic transformations in the adults ofDrosophila.

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