Raff Elizabeth C, Hoyle Henry D, Popodi Ellen M, Turner F Rudolf
Department of Biology, Indiana Molecular Biology Institute, Indiana University, Bloomington, IN 47405, USA.
Curr Biol. 2008 Jun 24;18(12):911-4. doi: 10.1016/j.cub.2008.05.031.
Axonemes of motile eukaryotic cilia and flagella have a conserved structure of nine doublet microtubules surrounding a central pair of microtubules. Outer and inner dynein arms on the doublets mediate axoneme motility [1]. Outer dynein arms (ODAs) attach to the doublets at specific interfaces [2-5]. However, the molecular contacts of ODA-associated proteins with tubulins of the doublet microtubules are not known. We report here that attachment of ODAs requires glycine 56 in the beta-tubulin internal variable region (IVR). We show that in Drosophila spermatogenesis, a single amino acid change at this position results in sperm axonemes markedly deficient in ODAs. Moreover, we found that axonemal beta-tubulins throughout the phylogeny have invariant glycine 56 and a strongly conserved IVR, whereas nonaxonemal beta-tubulins vary widely in IVR sequences. Our data reveal a deeply conserved physical requirement for assembly of the macromolecular architecture of the motile axoneme. Amino acid 56 projects into the microtubule lumen [6]. Imaging studies of axonemes indicate that several proteins may interact with the doublet-microtubule lumen [3, 4, 7, 8]. This region of beta-tubulin may determine the conformation necessary for correct attachment of ODAs, or there may be sequence-specific interaction between beta-tubulin and a protein involved in ODA attachment or stabilization.
能动真核生物纤毛和鞭毛的轴丝具有一种保守结构,即由围绕一对中央微管的九组双联微管组成。双联微管上的外动力蛋白臂和内动力蛋白臂介导轴丝运动[1]。外动力蛋白臂(ODA)在特定界面处附着于双联微管[2 - 5]。然而,与ODA相关的蛋白质与双联微管微管蛋白的分子接触尚不清楚。我们在此报告,ODA的附着需要β - 微管蛋白内部可变区(IVR)中的甘氨酸56。我们表明,在果蝇精子发生过程中,该位置的单个氨基酸变化会导致精子轴丝中ODA明显缺乏。此外,我们发现整个系统发育过程中的轴丝β - 微管蛋白都具有不变的甘氨酸56和高度保守的IVR,而非轴丝β - 微管蛋白的IVR序列差异很大。我们的数据揭示了对能动轴丝大分子结构组装的一种深度保守的物理要求。氨基酸56伸向微管腔[6]。轴丝的成像研究表明,几种蛋白质可能与双联微管腔相互作用[3, 4, 7, 8]。β - 微管蛋白的这个区域可能决定了ODA正确附着所需的构象,或者β - 微管蛋白与参与ODA附着或稳定的蛋白质之间可能存在序列特异性相互作用。