College of Biotechnology, Institute of Sericulture and Systems Biology, Southwest University, Chongqing 400715, China.
J Biol Chem. 2010 Jun 18;285(25):19553-60. doi: 10.1074/jbc.M109.096743. Epub 2010 Mar 23.
Coloration is one of the most variable characters in animals and provides rich material for studying the developmental genetic basis of pigment patterns. In the silkworm, more than 100 gene mutation systems are related to aberrant color patterns. The melanism (mln) is a rare body color mutant that exhibits an easily distinguishable phenotype in both larval and adult silkworms. By positional cloning, we identified the candidate gene of the mln locus, Bm-iAANAT, whose homologous gene (Dat) converts dopamine into N-acetyldopamine, a precursor for N-acetyldopamine sclerotin in Drosophila. In the mln mutant, two types of abnormal Bm-iAANAT transcripts were identified, whose expression levels are markedly lower than the wild type (WT). Moreover, dopamine content was approximately twice as high in the sclerified tissues (head, thoracic legs, and anal plate) of the mutant as in WT, resulting in phenotypic differences between the two. Quantitative reverse transcription PCR analyses showed that other genes involved in the melanin metabolism pathway were regulated by the aberrant Bm-iAANAT activity in mln mutant in different ways and degrees. We therefore propose that greater accumulation of dopamine results from the functional deficiency of Bm-iAANAT in the mutant, causing a darker pattern in the sclerified regions than in the WT. In summary, our results indicate that Bm-iAANAT is responsible for the color pattern of the silkworm mutant, mln. To our knowledge, this is the first report showing a role for arylalkylamine-N-acetyltransferases in color pattern mutation in Lepidoptera.
颜色是动物中最具变异性的特征之一,为研究色素模式的发育遗传基础提供了丰富的材料。在蚕中,有 100 多个基因突变系统与异常颜色模式有关。黑化(mln)是一种罕见的体色突变体,在幼虫和成虫蚕中都表现出明显可区分的表型。通过定位克隆,我们确定了 mln 基因座的候选基因 Bm-iAANAT,其同源基因(Dat)将多巴胺转化为 N-乙酰多巴胺,这是果蝇中 N-乙酰多巴胺角质素的前体。在 mln 突变体中,鉴定出两种类型的异常 Bm-iAANAT 转录本,其表达水平明显低于野生型(WT)。此外,突变体的角质化组织(头部、胸部腿和肛门板)中的多巴胺含量约为 WT 的两倍,导致两种组织之间出现表型差异。定量反转录 PCR 分析表明,黑色素代谢途径中的其他基因受到 mln 突变体中异常 Bm-iAANAT 活性的不同程度的调节。因此,我们提出突变体中 Bm-iAANAT 的功能缺陷导致多巴胺的积累增加,从而使角质化区域的颜色比 WT 更深。总之,我们的结果表明 Bm-iAANAT 是蚕突变体 mln 颜色模式的原因。据我们所知,这是首次报道芳基烷基胺-N-乙酰转移酶在鳞翅目颜色模式突变中的作用。