Patrick Bauchat scite author profile

26RFa, a novel RFamide neuropeptide, is the endogenous ligand of the former orphan receptor GPR103. Intracerebroventricular injection of 26RFa and its C-terminal heptapeptide, 26RFa((20-26)), stimulates food intake in rodents. To develop potent, stable ligands of GPR103 with low molecular weight, we have designed a series of aza-β(3)-containing 26RFa((20-26)) analogues for their propensity to establish intramolecular hydrogen bonds, and we have evaluated their ability to increase [Ca(2+)](i) in GPR103-transfected cells. We have identified a compound, [Cmpi(21),aza-β(3)-Hht(23)]26RFa((21-26)), which was 8-fold more potent than 26RFa((20-26)) in mobilizing [Ca(2+)](i). This pseudopeptide was more stable in serum than 26RFa((20-26)) and exerted a longer lasting orexigenic effect in mice. This study constitutes an important step toward the development of 26RFa analogues that could prove useful for the treatment of feeding disorders.

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Stereoselective, nonracemic synthesis of ω-borono-α-amino acids

Collet

Bauchat

Danion-Bougot

et al. 1998

Tetrahedron: Asymmetry

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Water-Soluble Pegylated Quantum Dots: From a Composite Hexagonal Phase to Isolated Micelles

Boulmedais¹,

Bauchat²,

Brienne³

et al. 2006

Langmuir

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We present a simple method based on the dispersion of fluorescent quantum dots (QD) into a liquid crystal phase that provides either nanostructured material or isolated QD micelles depending on water concentration. The liquid-crystal phase was obtained by using a gallate amphiphile with a poly(ethylene glycol) chain as the polar headgroup, named I. The hydration of QD/I mixtures resulted in the formation of a composite hexagonal phase identified by small-angle X-ray scattering and by polarized light and fluorescence optical microscopy, showing a homogeneous distribution of fluorescence within hexagonal phase. This composite mesophase can be converted into isolated QD-I micelles by dilution in water. The fluorescent QD-I micelles, purified by size exclusion chromatography, are well monodisperse with a hydrodynamic diameter of 20-30 nm. Moreover, these QD do not show any nonspecific adsorption on lipid or cell membranes. By simply adjusting the water content, the PEG gallate amphiphile I provides a simple method to prepare a self-organized composite phase or pegylated water soluble QD micelles for biological applications.

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Sonochemical switching from ionic to radical pathways in the reactions of styrene and trans-β-Methylstyrene with lead tetraacetate

Anto

Bauchat

Foucaud

et al. 1991

Tetrahedron Letters

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Patrick Bauchat

Rational Design of a Low Molecular Weight, Stable, Potent, and Long-Lasting GPR103 Aza-β³-pseudopeptide Agonist

Stereoselective, nonracemic synthesis of ω-borono-α-amino acids

Water-Soluble Pegylated Quantum Dots: From a Composite Hexagonal Phase to Isolated Micelles

Sonochemical switching from ionic to radical pathways in the reactions of styrene and trans-β-Methylstyrene with lead tetraacetate

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Resources

About

Patrick Bauchat

Rational Design of a Low Molecular Weight, Stable, Potent, and Long-Lasting GPR103 Aza-β3-pseudopeptide Agonist

Stereoselective, nonracemic synthesis of ω-borono-α-amino acids

Water-Soluble Pegylated Quantum Dots: From a Composite Hexagonal Phase to Isolated Micelles

Sonochemical switching from ionic to radical pathways in the reactions of styrene and trans-β-Methylstyrene with lead tetraacetate

Contact Info

Product

Resources

About

Rational Design of a Low Molecular Weight, Stable, Potent, and Long-Lasting GPR103 Aza-β³-pseudopeptide Agonist