Kinesin-1 and Dynein Are the Primary Motors for Fast Transport of Mitochondria in Drosophila Motor Axons
Indiana University Bloomington · Penn Center for AIDS Research · +1 more institution
Abstract
To address questions about mechanisms of filament-based organelle transport, a system was developed to image and track mitochondria in an intact Drosophila nervous system. Mutant analyses suggest that the primary motors for mitochondrial movement in larval motor axons are kinesin-1 (anterograde) and cytoplasmic dynein (retrograde), and interestingly that kinesin-1 is critical for retrograde transport by dynein. During transport, there was little evidence that force production by the two opposing motors was competitive, suggesting a mechanism for alternate coordination. Tests of the possible coordination factor P150(Glued) suggested that it indeed influenced both motors on axonal mitochondria, but there was no…
Citation impact
- FWCI
- 9.77
- Percentile
- 100%
- References
- 69
Authors
4- ADAaron D. Pilling
Indiana University Bloomington, Penn Center for AIDS Research, University of Pennsylvania
- DHDai Horiuchi
Indiana University Bloomington, Penn Center for AIDS Research, University of Pennsylvania
- CMCurtis M. Lively
Indiana University Bloomington, Penn Center for AIDS Research, University of Pennsylvania
- WMWilliam M. SaxtonCorresponding
Indiana University Bloomington, Penn Center for AIDS Research, University of Pennsylvania
Topics & keywords
- Kinesin
- Biology
- Dynein
- Cell biology
- Motor protein
- Drosophila (subgenus)
- Mitochondrion
- Microtubule