Morán Erica, Jiménez Gerardo
Institut de Biologia Molecular de Barcelona-CSIC, Parc Científic de Barcelona, Josep Samitier 1-5, Barcelona 08028, Spain.
Mol Cell Biol. 2006 May;26(9):3446-54. doi: 10.1128/MCB.26.9.3446-3454.2006.
Tailless is an orphan nuclear receptor that controls terminal body patterning in Drosophila. Genetic analyses have revealed both positive and negative regulatory interactions of Tailless with various target genes, leading to the idea that, like many other nuclear receptors, Tailless mediates both activation and repression of transcription. In this paper, we have examined the consequences of converting Tailless into an obligate repressor and compared the activities of the resulting protein with those of wild-type Tailless. We find that this repressor form of Tailless behaves like the intact protein in gain- and loss-of-function experiments, being sufficient to support normal embryonic development and establish accurate patterns of gene expression even for positive Tailless targets such as hunchback and brachyenteron. This suggests that Tailless functions exclusively as a transcriptional repressor in the embryo and that the observed positive interactions of Tailless with specific targets are secondary effects involving repression of repressors. We provide evidence that knirps is one such repressor gene acting between Tailless and its indirect positive targets. Finally, our results indicate that Tailless exerts an active mechanism of repression via its ligand-binding domain and that this activity is largely independent of the activation function 2 (AF2) motif characteristic of most nuclear receptors.
无尾是一种孤儿核受体,它控制果蝇的终末身体模式形成。遗传学分析揭示了无尾与各种靶基因之间的正负调控相互作用,这导致了一种观点,即与许多其他核受体一样,无尾介导转录的激活和抑制。在本文中,我们研究了将无尾转化为一种专性阻遏物的后果,并将所得蛋白质的活性与野生型无尾的活性进行了比较。我们发现,这种无尾的阻遏物形式在功能获得和功能丧失实验中的行为与完整蛋白质相似,足以支持正常的胚胎发育,甚至对于无尾的正向靶标如驼背和短肠,也能建立准确的基因表达模式。这表明无尾在胚胎中仅作为转录阻遏物发挥作用,并且观察到的无尾与特定靶标的正向相互作用是涉及阻遏物抑制的次级效应。我们提供证据表明,克尼普斯是一种在无尾及其间接正向靶标之间起作用的阻遏基因。最后,我们的结果表明,无尾通过其配体结合结构域发挥一种主动的阻遏机制,并且这种活性在很大程度上独立于大多数核受体特有的激活功能2(AF2)基序。