H
Herve Bazin
Researcher at University of Montpellier
Publications - 37
Citations - 1826
Herve Bazin is an academic researcher from University of Montpellier. The author has contributed to research in topics: Förster resonance energy transfer & G protein-coupled receptor. The author has an hindex of 15, co-authored 37 publications receiving 1739 citations.
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Journal ArticleDOI
Cell-surface protein-protein interaction analysis with time-resolved FRET and snap-tag technologies: application to GPCR oligomerization.
Damien Maurel,Laetitia Comps-Agrar,Laetitia Comps-Agrar,Carsten Brock,Carsten Brock,Marie-Laure Rives,Marie-Laure Rives,Emmanuel Bourrier,Mohammed Akli Ayoub,Mohammed Akli Ayoub,Herve Bazin,Norbert Tinel,Thierry Durroux,Thierry Durroux,Laurent Prézeau,Laurent Prézeau,Eric Trinquet,Jean-Philippe Pin,Jean-Philippe Pin +18 more
TL;DR: A methodology combining time-resolved fluorescence resonance energy transfer (FRET) with snap-tag technology to quantitatively analyze protein-protein interactions at the surface of living cells, in a high throughput–compatible format is described.
Journal ArticleDOI
Time-resolved FRET between GPCR ligands reveals oligomers in native tissues
Laura Albizu,Martin Cottet,Martin Cottet,Martin Cottet,Michaela Kralikova,Stoytcho Stoev,René Seyer,René Seyer,René Seyer,Isabelle Brabet,Isabelle Brabet,Isabelle Brabet,Thomas Roux,Herve Bazin,Emmanuel Bourrier,Laurent Lamarque,Christophe Breton,Marie-Laure Rives,Amy Hauck Newman,Jonathan A. Javitch,Eric Trinquet,Maurice Manning,Jean-Philippe Pin,Jean-Philippe Pin,Jean-Philippe Pin,Bernard Mouillac,Bernard Mouillac,Bernard Mouillac,Thierry Durroux,Thierry Durroux,Thierry Durroux +30 more
TL;DR: A time-resolved FRET strategy based on receptor labeling with selective fluorescent ligands was developed and applied to native tissues and succeeded in demonstrating the presence of oxytocin receptor dimers and/or oligomers in mammary gland.
Journal ArticleDOI
Time resolved amplification of cryptate emission: a versatile technology to trace biomolecular interactions.
TL;DR: FRET in association with a time-resolved fluorescence mode of detection was used to design a new homogeneous technology suitable to monitor biomolecular interactions and review the latest applications to the study of molecular interactions involved in cells and new oligonucleotides based assays.
Journal ArticleDOI
Homogeneous time resolved fluorescence resonance energy transfer using rare earth cryptates as a tool for probing molecular interactions in biology
TL;DR: A homogeneous assay technology using time resolved fluorescence and fluorescence resonance energy transfer and a new class of fluorescent complexes, the cryptates, have been used as fluorescent donor with cross-linked allophycocyanin as acceptor.
Journal ArticleDOI
d-myo-Inositol 1-phosphate as a surrogate of d-myo-inositol 1,4,5-tris phosphate to monitor G protein-coupled receptor activation
Eric Trinquet,Michel Fink,Herve Bazin,Florence Grillet,Fabrice Maurin,Emmanuel Bourrier,Hervé Ansanay,Cédric Leroy,Audrey Michaud,Thierry Durroux,Thierry Durroux,Damien Maurel,Damien Maurel,Fanny Malhaire,Fanny Malhaire,Cyril Goudet,Cyril Goudet,Jean-Philippe Pin,Jean-Philippe Pin,Magali Naval,Olivier Hernout,Françoise Chrétien,Yves Chapleur,Gérard Mathis +23 more
TL;DR: It is shown here that IP1 can be used as a surrogate of IP3 to monitor GPCR activation and the high assay specificity for D-myo-inositol 1 monophosphate (IP1(1)) opens new possibilities in developing selective assays to study the functional roles of the various isoforms of inositol phosphates.