Yves-Marie Coïc scite author profile

Raman data collected from free amino acid and peptide chains permit assignment of the seven markers located at approximately 1616, 1606, 1210, 1178, 850, 830, and 643 cm À1 to tyrosine. The effects induced by labile hydrogen deuteration, temperature, concentration, and protonation-deprotonation on these Raman markers were analyzed. Following closely a recent multiconformational analysis on phenylalanine, we could confirm the predominance of gauche -/gauche -rotamers with respect to the side chain χ 1 /χ 2 torsion angles in both tyrosine and tyrosinate. Calculated Raman spectra, based on the consideration of both implicit and explicit hydration models, have revealed the effect of hydrogen bonding of water molecules to the phenol ring hydroxyl group of tyrosine. A special attention has been paid to the 850/830 cm À1 tyrosine doublet, for which no intensity ratio inversion could be remarked when the phenol hydroxyl group acts as a hydrogen bond donor or acceptor. On the contrary, this intensity ratio appeared to be strongly dependent on the hydrophobic/hydrophilic balance of the interactions, in which the phenol ring is involved. Based on the present theoretical calculations, the components of the tyrosine doublet might originate from two independent fundamental modes of the phenol ring: one with an in-plane character and the other with an out-ofplane character. As a consequence, the widely spread Fermi resonance-based description of the tyrosine doublet appears to be unjustified. The latter interpretation simply results from the insufficiencies of the simple model compound used at that time for analyzing the vibrational features of a more complex molecular system such as tyrosine.

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Peptidoglycan Crosslinking Relaxation Plays an Important Role in Staphylococcus aureus WalKR-Dependent Cell Viability

Delaune

Poupel

Mallet

et al. 2011

PLoS ONE

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The WalKR two-component system is essential for viability of Staphylococcus aureus, a major pathogen. We have shown that WalKR acts as the master controller of peptidoglycan metabolism, yet none of the identified regulon genes explain its requirement for cell viability. Transmission electron micrographs revealed cell wall thickening and aberrant division septa in the absence of WalKR, suggesting its requirement may be linked to its role in coordinating cell wall metabolism and cell division. We therefore tested whether uncoupling autolysin gene expression from WalKR-dependent regulation could compensate for its essential nature. Uncoupled expression of genes encoding lytic transglycosylases or amidases did not restore growth to a WalKR-depleted strain. We identified only two WalKR-regulon genes whose expression restored cell viability in the absence of WalKR: lytM and ssaA. Neither of these two genes are essential under our conditions and a ΔlytM ΔssaA mutant does not present any growth defect. LytM is a glycyl–glycyl endopeptidase, hydrolyzing the pentaglycine interpeptide crossbridge, and SsaA belongs to the CHAP amidase family, members of which such as LysK and LytA have been shown to have D-alanyl-glycyl endopeptidase activity, cleaving between the crossbridge and the stem peptide. Taken together, our results strongly suggest that peptidoglycan crosslinking relaxation through crossbridge hydrolysis plays a crucial role in the essential requirement of the WalKR system for cell viability.

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Secondary and tertiary structures of the transmembrane domains of the translocator protein TSPO determined by NMR. Stabilization of the TSPO tertiary fold upon ligand binding

Murail

Robert

Coïc

et al. 2008

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Numerous biological functions are attributed to the peripheral-type benzodiazepine receptor (PBR) recently renamed translocator protein (TSPO). The best characterized function is the translocation of cholesterol from the outer to inner mitochondrial membrane, which is a rate-determining step in steroid biosynthesis. TSPO drug ligands have been shown to stimulate pregnenolone formation by inducing TSPO-mediated translocation of cholesterol. Until recently, no direct structural data on this membrane protein was available. In a previous paper, we showed that a part of the mouse TSPO (mTSPO) C-terminal region adopts a helical conformation, the side-chain distribution of which provides a groove able to fit a cholesterol molecule. We report here on the overall structural properties of mTSPO. This study was first undertaken by dissecting the protein sequence and studying the conformation of five peptides encompassing the five putative transmembrane domains from (1)H-NMR data. The secondary structure of the recombinant protein in micelles was then studied using CD spectroscopy. In parallel, the stability of its tertiary fold was probed using (1)H-(15)N NMR. This study provides the first experimental evidence for a five-helix fold of mTSPO and shows that the helical conformation of each transmembrane domain is mainly formed through local short-range interactions. Our data show that, in micelles, mTSPO exhibits helix content close to what is expected but an unstable tertiary fold. They reveal that the binding of a drug ligand that stimulates cholesterol translocation is able to stabilize the mTSPO tertiary structure.

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Dodecylphosphocholine micelles as a membrane-like environment: new results from NMR relaxation and paramagnetic relaxation enhancement analysis

Beswick

Guérois

Cordier-Ochsenbein

et al. 1998

European Biophysics Journal

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To further examine to what extent a dodecyl-phosphocholine (DPC) micelle mimics a phosphatidylcholine bilayer environment, we performed 13C, 2H, and 31P NMR relaxation measurements. Our data show that the dynamic behavior of DPC phosphocholine groups at low temperature (12 degrees C) corresponds to that of a phosphatidylcholine interface at high temperature (51 degrees C). In the presence of helical peptides, a PMP1 fragment, or an annexin fragment, the DPC local dynamics are not affected whereas the DPC aggregation number is increased to match an appropriate area/volume ratio for accommodating the bound peptides. We also show that quantitative measurements of paramagnetic relaxation enhancements induced by small amounts of spin-labeled phospholipids on peptide proton signals provide a meaningful insight on the location of both PMP1 and annexin fragments in DPC micelles. The paramagnetic contributions to the relaxation were extracted from intra-residue cross-peaks of NOESY spectra for both peptides. The location of each peptide in the micelles was found consistent with the corresponding relaxation data. As illustrated by the study of the PMP1 fragment, paramagnetic relaxation data also allow us to supply the missing medium-range NOEs and therefore to complete a standard conformational analysis of peptides in micelles.

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Yves-Marie Coïc

All characteristic Raman markers of tyrosine and tyrosinate originate from phenol ring fundamental vibrations

Peptidoglycan Crosslinking Relaxation Plays an Important Role in Staphylococcus aureus WalKR-Dependent Cell Viability

Secondary and tertiary structures of the transmembrane domains of the translocator protein TSPO determined by NMR. Stabilization of the TSPO tertiary fold upon ligand binding

Dodecylphosphocholine micelles as a membrane-like environment: new results from NMR relaxation and paramagnetic relaxation enhancement analysis

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