Litcius/Paper detail

Functional exploration of heterotrimeric kinesin-II in IFT and ciliary length control in Chlamydomonas

Shufen Li, Kirsty Y. Wan, Wei Chen, Hui Tao, Xin Liang, Junmin Pan

2020eLife23 citationsDOIOpen Access PDF

Abstract

Heterodimeric motor organization of kinesin-II is essential for its function in anterograde IFT in ciliogenesis. However, the underlying mechanism is not well understood. In addition, the anterograde IFT velocity varies significantly in different organisms, but how this velocity affects ciliary length is not clear. We show that in Chlamydomonas motors are only stable as heterodimers in vivo, which is likely the key factor for the requirement of a heterodimer for IFT. Second, chimeric CrKinesin-II with human kinesin-II motor domains functioned in vitro and in vivo, leading to a ~ 2.8 fold reduced anterograde IFT velocity and a similar fold reduction in IFT injection rate that supposedly correlates with ciliary assembly activity. However, the ciliary length was only mildly reduced (~15%). Modeling analysis suggests a nonlinear scaling relationship between IFT velocity and ciliary length that can be accounted for by limitation of the motors and/or its ciliary cargoes, e.g. tubulin.

Topics & Concepts

Intraflagellar transportCiliumKinesinChlamydomonasMicrotubuleBiologyCiliogenesisCell biologyDyneinBiophysicsFlagellumGeneticsGeneMutantGenetic and Kidney Cyst DiseasesMicro and Nano RoboticsMicrotubule and mitosis dynamics