u-track3D: Measuring, navigating, and validating dense particle trajectories in three dimensions

Philippe Roudot; Wesley R. Legant; Qiongjing Zou; Kevin M. Dean; Tadamoto Isogai; Erik S. Welf; Ana F. David; Daniel W. Gerlich; Reto Fiolka; Eric Betzig; Gaudenz Danuser

doi:10.1016/j.crmeth.2023.100655

u-track3D: Measuring, navigating, and validating dense particle trajectories in three dimensions

Philippe Roudot, Wesley R. Legant, Qiongjing Zou, Kevin M. Dean, Tadamoto Isogai, Erik S. Welf, Ana F. David, Daniel W. Gerlich, Reto Fiolka, Eric Betzig, Gaudenz Danuser

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We describe u-track3D, a software package that extends the versatile u-track framework established in 2D to address the specific challenges of 3D particle tracking. First, we present the performance of the new package in quantifying a variety of intracellular dynamics imaged by multiple 3D microcopy platforms and on the standard 3D test dataset of the particle tracking challenge. These analyses indicate that u-track3D presents a tracking solution that is competitive to both conventional and deep-learning-based approaches. We then present the concept of dynamic region of interest (dynROI), which allows an experimenter to interact with dynamic 3D processes in 2D views amenable to visual inspection. Third, we present an estimator of trackability that automatically defines a score for every trajectory, thereby overcoming the challenges of trajectory validation by visual inspection. With these combined strategies, u-track3D provides a complete framework for unbiased studies of molecular processes in complex volumetric sequences.

Original language	English (US)
Article number	100655
Journal	Cell Reports Methods
Volume	3
Issue number	12
DOIs	https://doi.org/10.1016/j.crmeth.2023.100655
State	Published - Dec 18 2023

Keywords

3D visualization
CP: Imaging
cell biology
confocal microscopy
error inference
intracellular dynamics
light-sheet microscopy
multiple particle tracking
particle tracking challenge

ASJC Scopus subject areas

Biotechnology
Biochemistry
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Genetics
Radiology Nuclear Medicine and imaging
Computer Science Applications

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10.1016/j.crmeth.2023.100655

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title = "u-track3D: Measuring, navigating, and validating dense particle trajectories in three dimensions",

abstract = "We describe u-track3D, a software package that extends the versatile u-track framework established in 2D to address the specific challenges of 3D particle tracking. First, we present the performance of the new package in quantifying a variety of intracellular dynamics imaged by multiple 3D microcopy platforms and on the standard 3D test dataset of the particle tracking challenge. These analyses indicate that u-track3D presents a tracking solution that is competitive to both conventional and deep-learning-based approaches. We then present the concept of dynamic region of interest (dynROI), which allows an experimenter to interact with dynamic 3D processes in 2D views amenable to visual inspection. Third, we present an estimator of trackability that automatically defines a score for every trajectory, thereby overcoming the challenges of trajectory validation by visual inspection. With these combined strategies, u-track3D provides a complete framework for unbiased studies of molecular processes in complex volumetric sequences.",

keywords = "3D visualization, CP: Imaging, cell biology, confocal microscopy, error inference, intracellular dynamics, light-sheet microscopy, multiple particle tracking, particle tracking challenge",

author = "Philippe Roudot and Legant, {Wesley R.} and Qiongjing Zou and Dean, {Kevin M.} and Tadamoto Isogai and Welf, {Erik S.} and David, {Ana F.} and Gerlich, {Daniel W.} and Reto Fiolka and Eric Betzig and Gaudenz Danuser",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = dec,

day = "18",

doi = "10.1016/j.crmeth.2023.100655",

language = "English (US)",

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AU - Roudot, Philippe

AU - Legant, Wesley R.

AU - Zou, Qiongjing

AU - Dean, Kevin M.

AU - Isogai, Tadamoto

AU - Welf, Erik S.

AU - David, Ana F.

AU - Gerlich, Daniel W.

AU - Fiolka, Reto

AU - Betzig, Eric

AU - Danuser, Gaudenz

PY - 2023/12/18

Y1 - 2023/12/18

N2 - We describe u-track3D, a software package that extends the versatile u-track framework established in 2D to address the specific challenges of 3D particle tracking. First, we present the performance of the new package in quantifying a variety of intracellular dynamics imaged by multiple 3D microcopy platforms and on the standard 3D test dataset of the particle tracking challenge. These analyses indicate that u-track3D presents a tracking solution that is competitive to both conventional and deep-learning-based approaches. We then present the concept of dynamic region of interest (dynROI), which allows an experimenter to interact with dynamic 3D processes in 2D views amenable to visual inspection. Third, we present an estimator of trackability that automatically defines a score for every trajectory, thereby overcoming the challenges of trajectory validation by visual inspection. With these combined strategies, u-track3D provides a complete framework for unbiased studies of molecular processes in complex volumetric sequences.

AB - We describe u-track3D, a software package that extends the versatile u-track framework established in 2D to address the specific challenges of 3D particle tracking. First, we present the performance of the new package in quantifying a variety of intracellular dynamics imaged by multiple 3D microcopy platforms and on the standard 3D test dataset of the particle tracking challenge. These analyses indicate that u-track3D presents a tracking solution that is competitive to both conventional and deep-learning-based approaches. We then present the concept of dynamic region of interest (dynROI), which allows an experimenter to interact with dynamic 3D processes in 2D views amenable to visual inspection. Third, we present an estimator of trackability that automatically defines a score for every trajectory, thereby overcoming the challenges of trajectory validation by visual inspection. With these combined strategies, u-track3D provides a complete framework for unbiased studies of molecular processes in complex volumetric sequences.

KW - 3D visualization

KW - CP: Imaging

KW - cell biology

KW - confocal microscopy

KW - error inference

KW - intracellular dynamics

KW - light-sheet microscopy

KW - multiple particle tracking

KW - particle tracking challenge

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u-track3D: Measuring, navigating, and validating dense particle trajectories in three dimensions

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Keywords

ASJC Scopus subject areas

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