A critical component of flagellar assembly, the kinesin-2 heterotrimeric complex powers the anterograde movement of proteinaceous rafts along the outer doublet of axonemes in intraflagellar transport (IFT). We present the first high-resolution structures of a kinesin-2 motor domain and an ATP hydrolysis–deficient motor domain mutant from the parasitic protist Giardia intestinalis. The high-resolution crystal structures of G. intestinalis wild-type kinesin-2 (GiKIN2a) motor domain, with its docked neck linker and the hydrolysis-deficient mutant GiKIN2aT104N were solved in a complex with ADP and Mg2+ at 1.6 and 1.8 Å resolutions, respectively. These high-resolution structures provide unique insight into the nucleotide coordination within the active site. G. intestinalis has eight flagella, and we demonstrate that both kinesin-2 homologues and IFT proteins localize to both cytoplasmic and membrane-bound regions of axonemes, with foci at cell body exit points and the distal flagellar tips. We demonstrate that the T104N mutation causes GiKIN2a to act as a rigor mutant in vitro. Overexpression of GiKIN2aT104N results in significant inhibition of flagellar assembly in the caudal, ventral, and posterolateral flagellar pairs. Thus we confirm the conserved evolutionary structure and functional role of kinesin-2 as the anterograde IFT motor in G. intestinalis.
展开▼
机译:鞭毛组装的关键组成部分,驱动蛋白2异三聚体复合物促进鞭毛内运输(IFT)中蛋白质筏沿轴突外部双峰的顺行运动。我们从寄生的原生动物贾第鞭毛虫肠道蠕动蛋白2电机域和ATP水解缺陷的电机域突变体的第一个高分辨率结构。用与ADP和Mg 2+的复合物解决了肠球菌野生型驱动蛋白2(GiKIN2a)运动域的高分辨率晶体结构及其对接的颈部连接子和水解缺陷型突变体GiKIN2aT104N。 sup>分别为1.6和1.8Å分辨率。这些高分辨率结构提供了对活性位点内核苷酸配位的独特见解。 G. intestinalis有八个鞭毛,我们证明了kinesin-2同源物和IFT蛋白都定位于轴突的胞质和膜结合区域,病灶位于细胞体出口点和远端鞭毛尖端。我们证明,T104N突变导致GiKIN2a在体外充当严格的突变体。 GiKIN2aT104N的过表达导致尾,腹和后外侧鞭毛对中鞭毛组装的显着抑制。因此,我们确认了驱动蛋白2作为肠小肠结肠菌的顺行IFT马达的保守进化结构和功能作用。
展开▼
