Diener D R, Ang L H, Rosenbaum J L
Department of Biology, Yale University, New Haven, Connecticut 06511.
J Cell Biol. 1993 Oct;123(1):183-90. doi: 10.1083/jcb.123.1.183.
Radial spokes of the eukaryotic flagellum extend from the A tubule of each outer doublet microtubule toward the central pair microtubules. In the paralyzed flagella mutant of Chlamydomonas pf14, a mutation in the gene for one of 17 polypeptides that comprise the radial spokes results in flagella that lack all 17 spoke components. The defective gene product, radial spoke protein 3 (RSP3), is, therefore, pivotal to the assembly of the entire spoke and may attach the spoke to the axoneme. We have synthesized RSP3 in vitro and assayed its binding to axonemes from pf14 cells to determine if RSP3 can attach to spokeless axonemes. In vitro, RSP3 binds to pf14 axonemes, but not to wild-type axonemes or microtubules polymerized from purified chick brain tubulin. The sole axoneme binding domain of RSP3 is located within amino acids 1-85 of the 516 amino acid protein; deletion of these amino acids abolishes binding by RSP3. Fusion of amino acids 1-85 or 42-85 to an unrelated protein confers complete or partial binding activity, respectively, to the fusion protein. Transformation of pf14 cells with mutagenized RSP3 genes indicates that amino acids 18-87 of RSP3 are important to its function, but that the carboxy-terminal 140 amino acids can be deleted with little effect on radial spoke assembly or flagellar motility.
真核生物鞭毛的辐条从每个外双联微管的A微管向中央对微管延伸。在衣藻pf14的麻痹鞭毛突变体中,构成辐条的17种多肽之一的基因突变导致鞭毛缺乏所有17种辐条成分。因此,有缺陷的基因产物辐条蛋白3(RSP3)对于整个辐条的组装至关重要,并且可能将辐条附着到轴丝上。我们在体外合成了RSP3,并检测了它与pf14细胞轴丝的结合情况,以确定RSP3是否能附着到无辐条的轴丝上。在体外,RSP3与pf14轴丝结合,但不与野生型轴丝或由纯化的鸡脑微管蛋白聚合而成的微管结合。RSP3唯一的轴丝结合结构域位于这个516个氨基酸的蛋白质的第1至85个氨基酸内;删除这些氨基酸会消除RSP3的结合。将第1至85个或第42至85个氨基酸与一种不相关的蛋白质融合,分别赋予融合蛋白完全或部分结合活性。用诱变的RSP3基因转化pf14细胞表明,RSP3的第18至87个氨基酸对其功能很重要,但羧基末端的140个氨基酸可以删除,而对辐条组装或鞭毛运动影响很小。