秀丽隐杆线虫unc-105突变影响肌肉，且被其他影响肌肉的突变所抑制。

C. elegans unc-105 mutations affect muscle and are suppressed by other mutations that affect muscle.

作者信息

Park E C, Horvitz H R

出版信息

Genetics. 1986 Aug;113(4):853-67. doi: 10.1093/genetics/113.4.853.

DOI:10.1093/genetics/113.4.853

PMID:3744029

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1202916/

Abstract

Certain mutations in the unc-105 II gene of the nematode Caenorhabditis elegans have dominant effects on morphology and behavior: animals become small, severely hypercontracted and paralyzed. These unc-105 mutants revert both spontaneously and with mutagens at high frequencies to a wild-type phenotype. Most of the reversion events are intragenic, apparently because the null (loss-of-function) phenotype of unc-105 is wild type. One revertant defined an extragenic suppressor locus, sup-20 X. Such suppressor alleles of sup-20 are rare, and the apparent null phenotype of sup-20 is embryonic lethality. By constructing animals genetically mosaic for sup-20, we have shown that the primary effect of sup-20 is in muscle cells. In addition to mutations in sup-20, other mutations causing muscle defects, such as unc-54 and unc-22 mutations, suppress the hypercontracted phenotype of unc-105. The ease of identifying nonhypercontracted revertants of unc-105 mutants greatly facilitates the isolation of new mutants defective in muscle structure and function.

摘要

秀丽隐杆线虫unc-105 II基因的某些突变对形态和行为具有显性作用：动物会变小、严重过度收缩并瘫痪。这些unc-105突变体可自发地以及在诱变剂作用下以高频率回复为野生型表型。大多数回复事件是基因内的，显然是因为unc-105的无效（功能丧失）表型是野生型。一个回复体定义了一个基因外抑制位点，即sup-20 X。sup-20的这种抑制等位基因很罕见，并且sup-20明显的无效表型是胚胎致死性。通过构建sup-20基因嵌合体动物，我们已表明sup-20的主要作用是在肌肉细胞中。除了sup-20中的突变外，其他导致肌肉缺陷的突变，如unc-54和unc-22突变，也可抑制unc-105的过度收缩表型。鉴定unc-105突变体的非过度收缩回复体的简便性极大地促进了肌肉结构和功能缺陷新突变体的分离。

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本文引用的文献

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