Molecular Flow Quantified beyond the Diffraction Limit by Spatiotemporal Image Correlation of Structured Illumination Microscopy Data

George W. Ashdown; Andrew Cope; Paul W. Wiseman; Dylan M. Owen

doi:10.1016/j.bpj.2014.09.018

Molecular Flow Quantified beyond the Diffraction Limit by Spatiotemporal Image Correlation of Structured Illumination Microscopy Data

George W. Ashdown, Andrew Cope, Paul W. Wiseman, Dylan M. Owen^*

^*Corresponding author for this work

McGill University

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

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Abstract

We combine total internal reflection fluorescence structured illumination microscopy with spatiotemporal image correlation spectroscopy to quantify the flow velocities and directionality of filamentous-actin at the T cell immunological synapse. These techniques demonstrate it is possible to image retrograde flow of filamentous-actin at superresolution and provide flow quantification in the form of velocity histograms and flow vector maps. The flow was found to be retrograde and radially directed throughout the periphery of T-cells during synapse formation.

Original language	English
Pages (from-to)	L21-L23
Number of pages	3
Journal	Biophysical Journal
Volume	107
Issue number	9
Early online date	4 Nov 2014
DOIs	https://doi.org/10.1016/j.bpj.2014.09.018
Publication status	Published - 2014

Keywords

ACTIN POLYMERIZATION
RETROGRADE FLOW
T-CELLS

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10.1016/j.bpj.2014.09.018

1-s2.0-S0006349514009576-mainFinal published version, 573 KB

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title = "Molecular Flow Quantified beyond the Diffraction Limit by Spatiotemporal Image Correlation of Structured Illumination Microscopy Data",

abstract = "We combine total internal reflection fluorescence structured illumination microscopy with spatiotemporal image correlation spectroscopy to quantify the flow velocities and directionality of filamentous-actin at the T cell immunological synapse. These techniques demonstrate it is possible to image retrograde flow of filamentous-actin at superresolution and provide flow quantification in the form of velocity histograms and flow vector maps. The flow was found to be retrograde and radially directed throughout the periphery of T-cells during synapse formation.",

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T1 - Molecular Flow Quantified beyond the Diffraction Limit by Spatiotemporal Image Correlation of Structured Illumination Microscopy Data

AU - Ashdown, George W.

AU - Cope, Andrew

AU - Wiseman, Paul W.

AU - Owen, Dylan M.

PY - 2014

Y1 - 2014

N2 - We combine total internal reflection fluorescence structured illumination microscopy with spatiotemporal image correlation spectroscopy to quantify the flow velocities and directionality of filamentous-actin at the T cell immunological synapse. These techniques demonstrate it is possible to image retrograde flow of filamentous-actin at superresolution and provide flow quantification in the form of velocity histograms and flow vector maps. The flow was found to be retrograde and radially directed throughout the periphery of T-cells during synapse formation.

AB - We combine total internal reflection fluorescence structured illumination microscopy with spatiotemporal image correlation spectroscopy to quantify the flow velocities and directionality of filamentous-actin at the T cell immunological synapse. These techniques demonstrate it is possible to image retrograde flow of filamentous-actin at superresolution and provide flow quantification in the form of velocity histograms and flow vector maps. The flow was found to be retrograde and radially directed throughout the periphery of T-cells during synapse formation.

KW - ACTIN POLYMERIZATION

KW - RETROGRADE FLOW

KW - T-CELLS

U2 - 10.1016/j.bpj.2014.09.018

DO - 10.1016/j.bpj.2014.09.018

M3 - Article

SN - 0006-3495

VL - 107

SP - L21-L23

JO - Biophysical Journal

JF - Biophysical Journal

IS - 9

ER -

Molecular Flow Quantified beyond the Diffraction Limit by Spatiotemporal Image Correlation of Structured Illumination Microscopy Data

Abstract

Keywords

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