Jonathan A. Hern scite author profile

G-protein-coupled receptors (GPCRs) are the largest family of transmembrane signaling proteins in the human genome. Events in the GPCR signaling cascade have been well characterized, but the receptor composition and its membrane distribution are still generally unknown. Although there is evidence that some members of the GPCR superfamily exist as constitutive dimers or higher oligomers, interpretation of the results has been disputed, and recent studies indicate that monomeric GPCRs may also be functional. Because there is controversy within the field, to address the issue we have used total internal reflection fluorescence microscopy (TIRFM) in living cells to visualize thousands of individual molecules of a model GPCR, the M 1 muscarinic acetylcholine receptor. By tracking the position of individual receptors over time, their mobility, clustering, and dimerization kinetics could be directly determined with a resolution of~30 ms and~20 nm. In isolated CHO cells, receptors are randomly distributed over the plasma membrane. At any given time,~30% of the receptor molecules exist as dimers, and we found no evidence for higher oligomers. Two-color TIRFM established the dynamic nature of dimer formation with M 1 receptors undergoing interconversion between monomers and dimers on the timescale of seconds.acetylcholine receptor | dimerization | G-protein-coupled receptor | receptor clustering | receptor mobility

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Characterisation of [125I]-apamin binding sites in rat brain membranes and HEK293 cells transfected with SK channel subtypes

Finlayson

McLuckie

Hern

et al. 2001

Neuropharmacology

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Use of Fluorescence Correlation Spectroscopy to Study the Diffusion of G Protein‐coupled Receptors

Briddon

Hern

Hill

2010

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Allosteric Regulation of Binding and Function at GCPRS

Birdsall¹,

Browning²,

Hern³

et al. 2004

Med Chem Res

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Jonathan A. Hern

Formation and dissociation of M ₁ muscarinic receptor dimers seen by total internal reflection fluorescence imaging of single molecules

Characterisation of [125I]-apamin binding sites in rat brain membranes and HEK293 cells transfected with SK channel subtypes

Use of Fluorescence Correlation Spectroscopy to Study the Diffusion of G Protein‐coupled Receptors

Allosteric Regulation of Binding and Function at GCPRS

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Jonathan A. Hern

Formation and dissociation of M 1 muscarinic receptor dimers seen by total internal reflection fluorescence imaging of single molecules

Characterisation of [125I]-apamin binding sites in rat brain membranes and HEK293 cells transfected with SK channel subtypes

Use of Fluorescence Correlation Spectroscopy to Study the Diffusion of G Protein‐coupled Receptors

Allosteric Regulation of Binding and Function at GCPRS

Contact Info

Product

Resources

About

Formation and dissociation of M ₁ muscarinic receptor dimers seen by total internal reflection fluorescence imaging of single molecules