Takada S, Kamiya R
Department of Molecular Biology, School of Science, Nagoya University, Japan.
J Cell Biol. 1994 Aug;126(3):737-45. doi: 10.1083/jcb.126.3.737.
The outer dynein arm of Chlamydomonas flagella, when isolated under Mg(2+)-free conditions, tends to dissociate into an 11 to 12S particle (12S dynein) containing the gamma heavy chain and a 21S particle (called 18S dynein) containing the alpha and beta heavy chains. We show here that functional outer arms can be reconstituted by the addition of 12S and 18S dyneins to the axonemes of the outer armless mutants oda1-oda6. A third factor that sediments at integral 7S is required for efficient reconstitution of the outer arms on the axonemes of oda1 and oda3. However, this factor is not necessary for reconstitution on the axonemes of oda2, oda4, oda5, and oda6. SDS-PAGE analysis indicates that the axonemes of the former two mutants lack a integral of 70-kD polypeptide that is present in those of the other mutants as well as in the 7S fraction from the wild-type extract. Furthermore, electron micrographs of axonemal cross sections revealed that the latter four mutants, but not oda1 or oda3, have small pointed structures on the outer doublets, at a position in cross section where outer arms normally occur. We suggest that the 7S factor constitutes the pointed structure on the outer doublets and facilitates attachment of the outer arm. The discovery of this structure raises a new question as to how the attachment site for the outer arm dynein is determined within the axoneme.
在无镁离子条件下分离的衣藻鞭毛外动力蛋白臂,倾向于解离成一个含有γ重链的11至12S颗粒(12S动力蛋白)和一个含有α和β重链的21S颗粒(称为18S动力蛋白)。我们在此表明,通过将12S和18S动力蛋白添加到外臂缺失突变体oda1 - oda6的轴丝上,可以重建功能性外臂。oda1和oda3轴丝上外臂的有效重建需要第三个沉降系数为完整7S的因子。然而,对于oda2、oda4、oda5和oda6轴丝的重建,该因子并非必需。SDS - PAGE分析表明,前两个突变体的轴丝缺少一个70 - kD的完整多肽,而其他突变体的轴丝以及野生型提取物的7S组分中都存在该多肽。此外,轴丝横切面的电子显微镜照片显示,后四个突变体,而非oda1或oda3,在外双联体上有小的尖状结构,位于通常出现外臂的横切面位置。我们认为7S因子构成了外双联体上的尖状结构,并促进外臂的附着。这一结构的发现引发了一个关于外臂动力蛋白附着位点如何在轴丝内确定的新问题。