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秀丽隐杆线虫中控制滞育形成的感觉信息并行处理的证据。

Evidence for parallel processing of sensory information controlling dauer formation in Caenorhabditis elegans.

作者信息

Thomas J H, Birnby D A, Vowels J J

机构信息

Department of Genetics, University of Washington, Seattle 98195.

出版信息

Genetics. 1993 Aug;134(4):1105-17. doi: 10.1093/genetics/134.4.1105.

DOI:10.1093/genetics/134.4.1105
PMID:8375650
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1205579/
Abstract

Dauer formation in Caenorhabditis elegans is induced by chemosensation of high levels of a constitutively secreted pheromone. Seven genes defined by mutations that confer a dauer-formation constitutive phenotype (Daf-c) can be congruently divided into two groups by any of three criteria. Group 1 genes (daf-11 and daf-21) are (1) strongly synergistic with group 2 genes for their Daf-c phenotype, (2) incompletely suppressed by dauer-formation defective (Daf-d) mutations in the genes daf-3 and daf-5 and (3) strongly suppressed by Daf-d mutations in nine genes that affect the structure of chemosensory endings. Group 2 genes (daf-1, daf-4, daf-7, daf-8 and daf-14) are (1) strongly synergistic with group 1 genes for their Daf-c phenotype, (2) fully suppressed by Daf-d mutations in daf-3 and daf-5 and (3) not suppressed by Daf-d mutations in the nine genes that affect chemosensory ending structure. Mutations in each group of genes also cause distinct additional behavioral defects. We propose that these two groups of Daf-c genes act in parallel pathways that process sensory information. The two pathways are partially redundant with each other and normally act in concert to control dauer formation.

摘要

秀丽隐杆线虫中的 dauer 形成是由高水平组成型分泌信息素的化学感应诱导的。由赋予 dauer 形成组成型表型(Daf-c)的突变所定义的七个基因,可以通过三种标准中的任何一种一致地分为两组。第 1 组基因(daf-11 和 daf-21)具有以下特点:(1)对于其 Daf-c 表型,与第 2 组基因具有强烈的协同作用;(2)在基因 daf-3 和 daf-5 中的 dauer 形成缺陷(Daf-d)突变不能完全抑制它们;(3)在影响化学感应末梢结构的九个基因中的 Daf-d 突变能强烈抑制它们。第 2 组基因(daf-1、daf-4、daf-7、daf-8 和 daf-14)具有以下特点:(1)对于其 Daf-c 表型,与第 1 组基因具有强烈的协同作用;(2)被 daf-3 和 daf-5 中的 Daf-d 突变完全抑制;(3)不被影响化学感应末梢结构的九个基因中的 Daf-d 突变所抑制。每组基因中的突变还会导致明显的其他行为缺陷。我们提出,这两组 Daf-c 基因在处理感觉信息的平行途径中起作用。这两条途径彼此部分冗余,通常协同作用以控制 dauer 形成。

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