François-Régis Chalaoux - Academia.edu (original) (raw)

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Papers by François-Régis Chalaoux

International Journal of Peptide and Protein Research, 2009

A model tetradecapeptide, used for the purification of the RXVRG-endoprotease from Xenopus laevis... more A model tetradecapeptide, used for the purification of the RXVRG-endoprotease from Xenopus laevis skin exudate, has been studied by two-dimensional NMR, correlation (COSY) and NOE (NOESY) spectroscopy. This peptide has the 5-9 consensus sequence (RXVRG), along with an acidic moiety (1-4) and a hydrophobic domain (10-14). Variations with temperature of NH chemical shifts in a dimethyl sulfoxide solution (low thermal coefficients at residues 6, 7 and 8) and quantified NOE values from four spectra at different mixing times clearly showed a structural organization in the consensus domain with psi-angles around [-40, -10 degrees] for residues 7 and 8, and two NOE correlations of alpha HiNHi + 2 type (5-7 and 6-8). Moreover, a privileged rotamer in the side chain is established for three residues (Val2, Asp3 and Val7) and limited possibilities are discussed for seven others. Most of the folding trends were not observed in the [Ser7] derivative, underlying the relationship between the conformations and a full consensus sequence. In the model tetradecapeptide an equilibrium between two beta-turns of type I, fragments 4-7 and 5-8, seems the most probable. Comparison between this tetradecapeptide and its 4-14 fragment, also a substrate for RXVRG-endoprotease, shows that the 1-3 moiety (DVD) influences the consensus domain structure(s) and clearly stabilizes the folded one(s). Finally, two analytical methods are developed in order to determine: (1) the trifluoroacetic acid content of the peptide samples, on the basis of 19F NMR spectroscopy; (2) the mean phi- and psi-angles of each residue, from the whole set of NH/alpha H coupling constants (3JN alpha) and NOE data at a local level.

Journal of Computer-Aided Molecular Design, 1995

The tetradecapeptide of sequence H-Asp-Val-Asp-Glu-Arg5-Asp-Val-Arg-Gly9-Phe-Ala-Ser-Phe-Leu- NH2... more The tetradecapeptide of sequence H-Asp-Val-Asp-Glu-Arg5-Asp-Val-Arg-Gly9-Phe-Ala-Ser-Phe-Leu- NH2 is recognized by a putative maturation endoprotease of the Xenopus laevis skin, which cleaves between Arg8 and Gly9. A conformational search has been performed on this peptide by simulated annealing calculations. Two different models in agreement with the NMR data were found. The conformational difference between the two types of model is located in the consensus sequence, i.e., from Arg5 to Gly9.

Journal of Biomolecular Structure and Dynamics, 1995

Conformation of a tetradecapeptide with a RXVRG consensus sequence, Arg5-Asp-Val-Arg-Gly9, found ... more Conformation of a tetradecapeptide with a RXVRG consensus sequence, Arg5-Asp-Val-Arg-Gly9, found in several precursors of antibacterian peptides, was investigated in dimethylsulfoxide solution by proton NMR spectroscopy. Complete resonance assignments and conformational parameters were obtained through correlated (COSY) and nuclear Overhauser (NOESY) techniques. The 3J(alpha H, beta H) coupling constants and the intramolecular NOE, NH...beta H, were used to analyse the conformers around the C alpha-C beta bond and, in four cases, to obtain stereospecific assignments. Use of restraints derived from NOE connectivities and 3J(NH, alpha H) coupling constants allows the determination of a range of phi and psi dihedral angles for all the residues in the sequence. The present NMR results provide favourable evidence for the formation of two bends in the consensus sequence of the tetradecapeptide. The first one has most of the features of a Glu4-Val7 beta-turn (low temperature coefficient of the Val7NH chemical shift, Arg5 alpha H...Val7NH and Asp6NH...Val7NH NOE correlations). The second one exhibits only the Asp6 alpha H...Arg7NH and Val7NH...Arg8NH NOE interactions. These consensus sequence organizations proposed were confirmed by molecular modeling based on low potential energy structure on the [4-9] fragment with high agreement of NOE data. Overall, the substitution of Ser12 by Ala12 shifts the conformation of the hydrophobic moiety [10-14] towards a quite random coil structure in this fragment and strongly destabilizes the folded structures of the consensus domain where only one NH (Val7) is solvent-shielded opposed to three (Asp6 to Arg8) in the [Ser12] tetradecapeptide. These conformational changes could be related to the processing enzyme activities on these model oligopeptides.

Biopolymers, 1994

Two synthetic fragments, corresponding to the 4-9 and 4-14 sequences of a tetradecapeptide used a... more Two synthetic fragments, corresponding to the 4-9 and 4-14 sequences of a tetradecapeptide used as a model to test the RXVRG-endoprotease activity from Xenopus laevis skin, have been studied by two-dimensional nmr spectroscopies, correlated spectroscopy, and nuclear Overhauser effect (NOE) spectroscopy. Both peptides wore the 5-9 consensus sequence found in several hormonal precursors. The nmr data for the 4-9 hexapeptide did not indicate any particular organization, either in water or in dimethylsulfoxide (DMSO), whereas, the 4-14 undecapeptide, a substrate for the RXVRG endoprotease, showed, in DMSO solution, significant trends of structural organization involving the amino acids pertaining to the consensus domain. From variations of integrated NOE peaks with temperature, the apparent interproton correlation times tau c were estimated and the maxima observed with Val7, the central residue in the consensus sequence. A defined tertiary structure in that domain was also supported by medium- and long-range NOEs between Asp6 and Arg8, Glu4 and Gly9, and by the likely involvement of Arg8 and Gly9 NHs in intramolecular hydrogen bonds. Most of these observations could be rationalized by an equilibrium between a 5-8 beta-turn and a 9 > 4 H-bonded loop. The predominance of one rotamer for the C alpha-C beta bond was established in four residues. Finally, the average phi and psi angles were derived from two models taking, or not, into account variations in the correlation times along the sequence. This allowed us to discuss the artefacts generated by using an average correlation time through the whole molecule.

Proteins: Structure, Function, and Genetics, 1999

The effect of internal dynamics on the accuracy of nuclear magnetic resonance (NMR) structures wa... more The effect of internal dynamics on the accuracy of nuclear magnetic resonance (NMR) structures was studied in detail using model distance restraint sets (DRS) generated from a 6.6 nanosecond molecular dynamics trajectory of bovine pancreatic trypsin inhibitor. The model data included the effects of internal dynamics in a very realistic way. Structure calculations using different error estimates were performed with iterative removal of systematically violated restraints. The accuracy of each calculated structure was measured as the atomic root mean square (RMS) difference to the optimized average structure derived from the trajectory by structure factors refinement. Many of the distance restraints were derived from NOEs that were significantly affected by internal dynamics. Depending on the error bounds used, these distance restraints seriously distorted the structure, leading to deviations from the coordinate average of the dynamics trajectory even in rigid regions. Increasing error bounds uniformly for all distance restraints relieved the strain on the structures. However, the accuracy did not improve. Significant improvement of accuracy was obtained by identifying inconsistent restraints with violation analysis, and excluding them from the calculation. The highest accuracy was obtained by setting bounds rather tightly, and removing about a third of the restraints. The limiting accuracy for all backbone atoms was between 0.6 and 0.7 Å. Also, the precision of the structures increased with removal of inconsistent restraints, indicating that a high precision is not simply the consequence of tight error bounds but of the consistency of the DRS. The precision consistently overestimated the accuracy. Proteins 1999;34:453-463. 1999 Wiley-Liss, Inc.

International Journal of Peptide and Protein Research, 2009

A model tetradecapeptide, used for the purification of the RXVRG-endoprotease from Xenopus laevis... more A model tetradecapeptide, used for the purification of the RXVRG-endoprotease from Xenopus laevis skin exudate, has been studied by two-dimensional NMR, correlation (COSY) and NOE (NOESY) spectroscopy. This peptide has the 5-9 consensus sequence (RXVRG), along with an acidic moiety (1-4) and a hydrophobic domain (10-14). Variations with temperature of NH chemical shifts in a dimethyl sulfoxide solution (low thermal coefficients at residues 6, 7 and 8) and quantified NOE values from four spectra at different mixing times clearly showed a structural organization in the consensus domain with psi-angles around [-40, -10 degrees] for residues 7 and 8, and two NOE correlations of alpha HiNHi + 2 type (5-7 and 6-8). Moreover, a privileged rotamer in the side chain is established for three residues (Val2, Asp3 and Val7) and limited possibilities are discussed for seven others. Most of the folding trends were not observed in the [Ser7] derivative, underlying the relationship between the conformations and a full consensus sequence. In the model tetradecapeptide an equilibrium between two beta-turns of type I, fragments 4-7 and 5-8, seems the most probable. Comparison between this tetradecapeptide and its 4-14 fragment, also a substrate for RXVRG-endoprotease, shows that the 1-3 moiety (DVD) influences the consensus domain structure(s) and clearly stabilizes the folded one(s). Finally, two analytical methods are developed in order to determine: (1) the trifluoroacetic acid content of the peptide samples, on the basis of 19F NMR spectroscopy; (2) the mean phi- and psi-angles of each residue, from the whole set of NH/alpha H coupling constants (3JN alpha) and NOE data at a local level.

Journal of Computer-Aided Molecular Design, 1995

The tetradecapeptide of sequence H-Asp-Val-Asp-Glu-Arg5-Asp-Val-Arg-Gly9-Phe-Ala-Ser-Phe-Leu- NH2... more The tetradecapeptide of sequence H-Asp-Val-Asp-Glu-Arg5-Asp-Val-Arg-Gly9-Phe-Ala-Ser-Phe-Leu- NH2 is recognized by a putative maturation endoprotease of the Xenopus laevis skin, which cleaves between Arg8 and Gly9. A conformational search has been performed on this peptide by simulated annealing calculations. Two different models in agreement with the NMR data were found. The conformational difference between the two types of model is located in the consensus sequence, i.e., from Arg5 to Gly9.

Journal of Biomolecular Structure and Dynamics, 1995

Conformation of a tetradecapeptide with a RXVRG consensus sequence, Arg5-Asp-Val-Arg-Gly9, found ... more Conformation of a tetradecapeptide with a RXVRG consensus sequence, Arg5-Asp-Val-Arg-Gly9, found in several precursors of antibacterian peptides, was investigated in dimethylsulfoxide solution by proton NMR spectroscopy. Complete resonance assignments and conformational parameters were obtained through correlated (COSY) and nuclear Overhauser (NOESY) techniques. The 3J(alpha H, beta H) coupling constants and the intramolecular NOE, NH...beta H, were used to analyse the conformers around the C alpha-C beta bond and, in four cases, to obtain stereospecific assignments. Use of restraints derived from NOE connectivities and 3J(NH, alpha H) coupling constants allows the determination of a range of phi and psi dihedral angles for all the residues in the sequence. The present NMR results provide favourable evidence for the formation of two bends in the consensus sequence of the tetradecapeptide. The first one has most of the features of a Glu4-Val7 beta-turn (low temperature coefficient of the Val7NH chemical shift, Arg5 alpha H...Val7NH and Asp6NH...Val7NH NOE correlations). The second one exhibits only the Asp6 alpha H...Arg7NH and Val7NH...Arg8NH NOE interactions. These consensus sequence organizations proposed were confirmed by molecular modeling based on low potential energy structure on the [4-9] fragment with high agreement of NOE data. Overall, the substitution of Ser12 by Ala12 shifts the conformation of the hydrophobic moiety [10-14] towards a quite random coil structure in this fragment and strongly destabilizes the folded structures of the consensus domain where only one NH (Val7) is solvent-shielded opposed to three (Asp6 to Arg8) in the [Ser12] tetradecapeptide. These conformational changes could be related to the processing enzyme activities on these model oligopeptides.

Biopolymers, 1994

Two synthetic fragments, corresponding to the 4-9 and 4-14 sequences of a tetradecapeptide used a... more Two synthetic fragments, corresponding to the 4-9 and 4-14 sequences of a tetradecapeptide used as a model to test the RXVRG-endoprotease activity from Xenopus laevis skin, have been studied by two-dimensional nmr spectroscopies, correlated spectroscopy, and nuclear Overhauser effect (NOE) spectroscopy. Both peptides wore the 5-9 consensus sequence found in several hormonal precursors. The nmr data for the 4-9 hexapeptide did not indicate any particular organization, either in water or in dimethylsulfoxide (DMSO), whereas, the 4-14 undecapeptide, a substrate for the RXVRG endoprotease, showed, in DMSO solution, significant trends of structural organization involving the amino acids pertaining to the consensus domain. From variations of integrated NOE peaks with temperature, the apparent interproton correlation times tau c were estimated and the maxima observed with Val7, the central residue in the consensus sequence. A defined tertiary structure in that domain was also supported by medium- and long-range NOEs between Asp6 and Arg8, Glu4 and Gly9, and by the likely involvement of Arg8 and Gly9 NHs in intramolecular hydrogen bonds. Most of these observations could be rationalized by an equilibrium between a 5-8 beta-turn and a 9 > 4 H-bonded loop. The predominance of one rotamer for the C alpha-C beta bond was established in four residues. Finally, the average phi and psi angles were derived from two models taking, or not, into account variations in the correlation times along the sequence. This allowed us to discuss the artefacts generated by using an average correlation time through the whole molecule.

Proteins: Structure, Function, and Genetics, 1999

The effect of internal dynamics on the accuracy of nuclear magnetic resonance (NMR) structures wa... more The effect of internal dynamics on the accuracy of nuclear magnetic resonance (NMR) structures was studied in detail using model distance restraint sets (DRS) generated from a 6.6 nanosecond molecular dynamics trajectory of bovine pancreatic trypsin inhibitor. The model data included the effects of internal dynamics in a very realistic way. Structure calculations using different error estimates were performed with iterative removal of systematically violated restraints. The accuracy of each calculated structure was measured as the atomic root mean square (RMS) difference to the optimized average structure derived from the trajectory by structure factors refinement. Many of the distance restraints were derived from NOEs that were significantly affected by internal dynamics. Depending on the error bounds used, these distance restraints seriously distorted the structure, leading to deviations from the coordinate average of the dynamics trajectory even in rigid regions. Increasing error bounds uniformly for all distance restraints relieved the strain on the structures. However, the accuracy did not improve. Significant improvement of accuracy was obtained by identifying inconsistent restraints with violation analysis, and excluding them from the calculation. The highest accuracy was obtained by setting bounds rather tightly, and removing about a third of the restraints. The limiting accuracy for all backbone atoms was between 0.6 and 0.7 Å. Also, the precision of the structures increased with removal of inconsistent restraints, indicating that a high precision is not simply the consequence of tight error bounds but of the consistency of the DRS. The precision consistently overestimated the accuracy. Proteins 1999;34:453-463. 1999 Wiley-Liss, Inc.