Using live FRET imaging to reveal early protein-protein interactions during T cell activation

Tomasz Zal; Nicholas R.J. Gascoigne

doi:10.1016/j.coi.2004.05.019

Using live FRET imaging to reveal early protein-protein interactions during T cell activation

Tomasz Zal, Nicholas R.J. Gascoigne

Immunology

Research output: Contribution to journal › Review article › peer-review

50 Scopus citations

Abstract

The emerging challenge for proteomics in general and lymphocyte biology in particular is to understand protein-protein interactions in the dynamic context of the living cell. Particularly interesting are the molecular dynamics of the T cell receptor-CD3 complex and other immunoreceptors in immune synapses. Fluorescence (or Förster) resonance energy transfer (FRET) is one of the few techniques that are capable of giving dynamic information about the nanometer-range proximity between molecules, as opposed to simply the subcellular co-localization that is provided by fluorescence microscopy. Spectral changes in fluorescence intensity and down modulation of donor lifetime are the basis for rapidly developing approaches to real-time FRET imaging. With two-photon excitation, FRET can now be extended to in vivo imaging.

Original language	English (US)
Pages (from-to)	418-427
Number of pages	10
Journal	Current Opinion in Immunology
Volume	16
Issue number	4
DOIs	https://doi.org/10.1016/j.coi.2004.05.019
State	Published - Aug 2004

Keywords

BRET
CFP
FLIM
FRET
GFP
IL
T cell receptor
TCR
YFP
bioluminescence resonance energy transfer
cyan fluorescent protein
fluorescence lifetime imaging microscopy
fluorescence resonance energy transfer
green fluorescent protein
interleukin

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1016/j.coi.2004.05.019

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title = "Using live FRET imaging to reveal early protein-protein interactions during T cell activation",

abstract = "The emerging challenge for proteomics in general and lymphocyte biology in particular is to understand protein-protein interactions in the dynamic context of the living cell. Particularly interesting are the molecular dynamics of the T cell receptor-CD3 complex and other immunoreceptors in immune synapses. Fluorescence (or F{\"o}rster) resonance energy transfer (FRET) is one of the few techniques that are capable of giving dynamic information about the nanometer-range proximity between molecules, as opposed to simply the subcellular co-localization that is provided by fluorescence microscopy. Spectral changes in fluorescence intensity and down modulation of donor lifetime are the basis for rapidly developing approaches to real-time FRET imaging. With two-photon excitation, FRET can now be extended to in vivo imaging.",

keywords = "BRET, CFP, FLIM, FRET, GFP, IL, T cell receptor, TCR, YFP, bioluminescence resonance energy transfer, cyan fluorescent protein, fluorescence lifetime imaging microscopy, fluorescence resonance energy transfer, green fluorescent protein, interleukin",

author = "Tomasz Zal and Gascoigne, {Nicholas R.J.}",

note = "Funding Information: Work from this laboratory was supported by grants from the National Institutes of Health. This is manuscript 16453-IMM from The Scripps Research Institute. ",

year = "2004",

month = aug,

doi = "10.1016/j.coi.2004.05.019",

language = "English (US)",

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journal = "Current Opinion in Immunology",

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AU - Zal, Tomasz

AU - Gascoigne, Nicholas R.J.

N1 - Funding Information: Work from this laboratory was supported by grants from the National Institutes of Health. This is manuscript 16453-IMM from The Scripps Research Institute.

PY - 2004/8

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N2 - The emerging challenge for proteomics in general and lymphocyte biology in particular is to understand protein-protein interactions in the dynamic context of the living cell. Particularly interesting are the molecular dynamics of the T cell receptor-CD3 complex and other immunoreceptors in immune synapses. Fluorescence (or Förster) resonance energy transfer (FRET) is one of the few techniques that are capable of giving dynamic information about the nanometer-range proximity between molecules, as opposed to simply the subcellular co-localization that is provided by fluorescence microscopy. Spectral changes in fluorescence intensity and down modulation of donor lifetime are the basis for rapidly developing approaches to real-time FRET imaging. With two-photon excitation, FRET can now be extended to in vivo imaging.

AB - The emerging challenge for proteomics in general and lymphocyte biology in particular is to understand protein-protein interactions in the dynamic context of the living cell. Particularly interesting are the molecular dynamics of the T cell receptor-CD3 complex and other immunoreceptors in immune synapses. Fluorescence (or Förster) resonance energy transfer (FRET) is one of the few techniques that are capable of giving dynamic information about the nanometer-range proximity between molecules, as opposed to simply the subcellular co-localization that is provided by fluorescence microscopy. Spectral changes in fluorescence intensity and down modulation of donor lifetime are the basis for rapidly developing approaches to real-time FRET imaging. With two-photon excitation, FRET can now be extended to in vivo imaging.

KW - BRET

KW - CFP

KW - FLIM

KW - FRET

KW - GFP

KW - IL

KW - T cell receptor

KW - TCR

KW - YFP

KW - bioluminescence resonance energy transfer

KW - cyan fluorescent protein

KW - fluorescence lifetime imaging microscopy

KW - fluorescence resonance energy transfer

KW - green fluorescent protein

KW - interleukin

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DO - 10.1016/j.coi.2004.05.019

M3 - Review article

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SN - 0952-7915

VL - 16

SP - 418

EP - 427

JO - Current Opinion in Immunology

JF - Current Opinion in Immunology

IS - 4

ER -

Using live FRET imaging to reveal early protein-protein interactions during T cell activation

Abstract

Keywords

ASJC Scopus subject areas

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