Phenotypic and molecular characterization of croaker, a new mating behavior mutant of Drosophila melanogaster.

Idengaku zasshi Pub Date : 1995-02-01 DOI:10.1266/jjg.70.103
T Yokokura, R Ueda, D Yamamoto
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引用次数: 25

Abstract

Mating of Drosophila melanogaster is a stereotypically patterned behavior consisting of a fixed sequence of actions that is primarily under genetic control. Although courtship can be easily monitored and quantified, little is known about its neural basis. To obtain a better understanding of cellular and molecular mechanisms underlying courtship, we have isolated mutants that disrupt specific aspects of mating behavior. The croaker mutant was isolated from approximately 1,000 lines harboring single P-element insertions by screening for aberrant courtship song: croaker males often generate polycyclic pulse song while most of the song pulses are monocyclic in the wild-type. The mutant is also defective in flight. Intracellular recordings of excitatory junction potentials from larval body wall muscles and Ca++ action potentials from adult indirect flight muscles demonstrated that neuromuscular transmission and Ca++ electrogenesis in the muscle fibers are not impaired by the croaker mutation. To define the croaker gene molecularly, genomic DNA surrounding the P-element insertion site was cloned by plasmid rescue and subsequent screening of a cosmid library. Northern blotting with the genomic DNA probes detected three transcripts in the wild-type, which were not expressed in the croaker mutant.

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黑腹果蝇交配行为新突变体croaker的表型和分子特征。
黑腹果蝇的交配是一种典型的模式行为,由一系列固定的行为组成,主要受基因控制。尽管求偶行为很容易被监测和量化,但人们对其神经基础知之甚少。为了更好地了解求爱的细胞和分子机制,我们分离出了破坏交配行为特定方面的突变体。通过筛选异常的求偶鸣声,从大约1000个含有单p元素插入的黄花鱼突变体中分离出黄花鱼突变体:雄性黄花鱼通常产生多环脉冲鸣声,而野生型黄花鱼的大多数鸣声脉冲是单环的。突变体在飞行方面也有缺陷。幼虫体壁肌的兴奋性连接电位和成虫间接飞行肌的Ca++动作电位的细胞内记录表明,神经肌肉传递和肌肉纤维中的Ca++电生成并未受到croaker突变的损害。为了从分子上确定黄花鱼基因,通过质粒抢救和随后的cosmid文库筛选克隆了p元素插入位点周围的基因组DNA。基因组DNA探针的Northern blotting检测到野生型中的三个转录本,而这些转录本在斑马鱼突变体中没有表达。
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