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Kymograph analysis with high temporal resolution reveals new features of neurofilament transport kinetics.


ABSTRACT: We have used kymograph analysis combined with edge detection and an automated computational algorithm to analyze the axonal transport kinetics of neurofilament polymers in cultured neurons at 30 ms temporal resolution. We generated 301 kymographs from 136 movies and analyzed 726 filaments ranging from 0.6 to 42 µm in length, representing ?37,000 distinct moving and pausing events. We found that the movement is even more intermittent than previously reported and that the filaments undergo frequent, often transient, reversals which suggest that they can engage simultaneously with both anterograde and retrograde motors. Average anterograde and retrograde bout velocities (0.9 and 1.2 µm s-1 , respectively) were faster than previously reported, with maximum sustained bout velocities of up to 6.6 and 7.8 µm s-1 , respectively. Average run lengths (?1.1 µm) and run times (?1.4 s) were in the range reported for molecular motor processivity in vitro, suggesting that the runs could represent the individual processive bouts of the neurofilament motors. Notably, we found no decrease in run velocity, run length or run time with increasing filament length, which suggests that either the drag on the moving filaments is negligible or that longer filaments recruit more motors.

SUBMITTER: Fenn JD 

PROVIDER: S-EPMC6005378 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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Kymograph analysis with high temporal resolution reveals new features of neurofilament transport kinetics.

Fenn J Daniel JD   Johnson Christopher M CM   Peng Juan J   Jung Peter P   Brown Anthony A  

Cytoskeleton (Hoboken, N.J.) 20171118 1


We have used kymograph analysis combined with edge detection and an automated computational algorithm to analyze the axonal transport kinetics of neurofilament polymers in cultured neurons at 30 ms temporal resolution. We generated 301 kymographs from 136 movies and analyzed 726 filaments ranging from 0.6 to 42 µm in length, representing ∼37,000 distinct moving and pausing events. We found that the movement is even more intermittent than previously reported and that the filaments undergo frequen  ...[more]

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