The Experts below are selected from a list of 32763 Experts worldwide ranked by ideXlab platform
Sylviane Muller - One of the best experts on this subject based on the ideXlab platform.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide.
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Sylviane MullerAbstract:Abstract The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is α-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical β-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Angélique Phan Chan Du, Sylviane MullerAbstract:The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is alpha-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical beta-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
Marie-christine Petit - One of the best experts on this subject based on the ideXlab platform.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide.
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Sylviane MullerAbstract:Abstract The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is α-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical β-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Angélique Phan Chan Du, Sylviane MullerAbstract:The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is alpha-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical beta-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
Manh Thong Cung - One of the best experts on this subject based on the ideXlab platform.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide.
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Sylviane MullerAbstract:Abstract The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is α-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical β-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Angélique Phan Chan Du, Sylviane MullerAbstract:The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is alpha-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical beta-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
Jean-paul Briand - One of the best experts on this subject based on the ideXlab platform.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide.
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Sylviane MullerAbstract:Abstract The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is α-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical β-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Angélique Phan Chan Du, Sylviane MullerAbstract:The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is alpha-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical beta-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
N. Benkirane - One of the best experts on this subject based on the ideXlab platform.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide.
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Sylviane MullerAbstract:Abstract The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is α-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical β-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
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Solution structure of a retro-inverso peptide analogue mimicking the foot-and-mouth disease Virus major antigenic site. Structural basis for its antigenic cross-reactivity with the parent peptide
Journal of Biological Chemistry, 1999Co-Authors: Marie-christine Petit, Jean-paul Briand, N. Benkirane, Gilles Guichard, Michel Marraud, Manh Thong Cung, Angélique Phan Chan Du, Sylviane MullerAbstract:The antigenic activity of a 19-mer peptide corresponding to the major antigenic region of foot-and-mouth disease Virus and its retro-enantiomeric analogue was found to be completely abolished when they were tested in a biosensor system in trifluoroethanol. This suggests that the folding pattern, which is alpha-helix in trifluoroethanol (confirmed by CD measurement), does not correspond to the biologically relevant conformation(s) recognized by antibodies. The NMR structures of both Peptides were thus determined in aqueous solution. These studies showed that the two Peptides exhibit similar folding features, particularly in their C termini. This may explain in part the cross-reactive properties of the two Peptides in aqueous solution. However, the retro-inverso analogue appears to be more rigid than the parent peptide and contains five atypical beta-turns. This feature may explain why retro-inverso foot-and-mouth disease Virus Peptides are often better recognized than the parent peptide by anti-virion antibodies.
