Sog/Chordin是短胚昆虫中Dpp/BMP从腹侧向背侧运输及头部形成所必需的。
Sog/Chordin is required for ventral-to-dorsal Dpp/BMP transport and head formation in a short germ insect.
作者信息
van der Zee Maurijn, Stockhammer Oliver, von Levetzow Cornelia, Nunes da Fonseca Rodrigo, Roth Siegfried
机构信息
Institut für Entwicklungsbiologie, Universität zu Köln, Gyrhofstrasse 17, 50923 Cologne, Germany.
出版信息
Proc Natl Acad Sci U S A. 2006 Oct 31;103(44):16307-12. doi: 10.1073/pnas.0605154103. Epub 2006 Oct 18.
Abstract
Bone morphogenetic protein (BMP) signaling plays a major role in dorsoventral patterning in vertebrates and in Drosophila. Remarkably, in Tribolium, a beetle with an ancestral type of insect development, early BMP/dpp exhibits differential expression along the anteroposterior axis. However, the BMP/Dpp inhibitor Sog/chordin is expressed ventrally and establishes a dorsal domain of BMP/Dpp activity by transporting BMPs toward the dorsal side, like in Drosophila. Loss of Tribolium Sog not only abolishes dorsoventral polarity in the ectoderm, but also leads to the complete absence of the CNS. This phenotype suggests that sog is the main BMP antagonist in Tribolium, in contrast to vertebrates and Drosophila, which possess redundant antagonists. Surprisingly, Sog also is required for head formation in Tribolium, as are the BMP antagonists in vertebrates. Thus, in Tribolium, the system of BMP and its antagonists is less complex than in Drosophila or vertebrates and combines features from both, suggesting that it might represent an ancestral state.
摘要
骨形态发生蛋白(BMP)信号传导在脊椎动物和果蝇的背腹模式形成中起主要作用。值得注意的是,在具有祖先类型昆虫发育方式的甲虫赤拟谷盗中,早期BMP/dpp沿前后轴表现出差异表达。然而,BMP/Dpp抑制剂Sog/脊索蛋白在腹侧表达,并通过将BMP向背侧运输来建立BMP/Dpp活性的背侧区域,这与果蝇中的情况类似。赤拟谷盗Sog的缺失不仅消除了外胚层中的背腹极性,还导致中枢神经系统完全缺失。这种表型表明,与拥有冗余拮抗剂的脊椎动物和果蝇不同,sog是赤拟谷盗中主要的BMP拮抗剂。令人惊讶的是,赤拟谷盗的头部形成也需要Sog,脊椎动物中的BMP拮抗剂也是如此。因此,在赤拟谷盗中,BMP及其拮抗剂的系统比果蝇或脊椎动物中的系统更简单,并且兼具两者的特征,这表明它可能代表一种原始状态。
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