2018
DOI: 10.1007/s10974-019-09503-3
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Rapid time-stamped analysis of filament motility

Abstract: The in vitro motility assay is a valuable tool to understand motor protein mechanics, but existing algorithms are not optimized for accurate time resolution. We propose an algorithm that combines trace detection with a time-stamped analysis. By tracking filament ends, we minimize data loss from overlapping and crossing filaments. A movement trace formed by each filament end is created by time-stamping when the filament either first (filament tip) or last (filament tail) occupies a pixel. A frame number vs dist… Show more

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Cited by 2 publications
(2 citation statements)
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“…Actin filament movement was visualized and recorded using an excitation light source (X-Cite 120Q; Excelitas Technologies), electron-multiplying charge-coupled device camera (KP-E500; 720 × 480 resolution; 30 frames/s; 8-bit grayscale; Hitachi Kokusai Electric), and custom software with a frame grabber (MOR/2VD/84; Matrox). The average velocity ( v ) of all filaments moving faster than a specified cutoff velocity (0.05 μm/s for the in vitro motility assays or 0.10 μm/s for the in vitro motility mixture assays; see Table S1 for all parameters used in the video analysis) and motile fraction ( f mot ; the percentage of filaments moving above this threshold) were measured using customized Matlab (vR2018a) video analysis software ( Ijpma et al, 2018 ). To improve the accuracy of v measurements at low f mot values, any instantaneous filament velocity greater than three times the mean velocity at each time point for all videos of a given condition was ignored.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Actin filament movement was visualized and recorded using an excitation light source (X-Cite 120Q; Excelitas Technologies), electron-multiplying charge-coupled device camera (KP-E500; 720 × 480 resolution; 30 frames/s; 8-bit grayscale; Hitachi Kokusai Electric), and custom software with a frame grabber (MOR/2VD/84; Matrox). The average velocity ( v ) of all filaments moving faster than a specified cutoff velocity (0.05 μm/s for the in vitro motility assays or 0.10 μm/s for the in vitro motility mixture assays; see Table S1 for all parameters used in the video analysis) and motile fraction ( f mot ; the percentage of filaments moving above this threshold) were measured using customized Matlab (vR2018a) video analysis software ( Ijpma et al, 2018 ). To improve the accuracy of v measurements at low f mot values, any instantaneous filament velocity greater than three times the mean velocity at each time point for all videos of a given condition was ignored.…”
Section: Methodsmentioning
confidence: 99%
“…S8 shows the Western blots of the phasic and tonic SMM. Table S1 shows the parameter settings of the Matlab software used to analyze the in vitro motility assay videos ( Ijpma et al, 2018 ). Table S2 and Table S3 show the nonnormalized sigmoid model parameters determined by fitting the in vitro motility and mixture assay data, respectively.…”
Section: Methodsmentioning
confidence: 99%