His primary areas of study are Biochemistry, Lectin, Mannose, Glycan and Gene. His Biochemistry study frequently draws connections between related disciplines such as Molecular biology. His Molecular biology research integrates issues from Complementary DNA and Sequence analysis.
His research in Lectin intersects with topics in Protein structure, Molecular cloning and Binding site. His Mannose study combines topics from a wide range of disciplines, such as Mannose binding and Agglutinin. His study looks at the relationship between Glycan and fields such as Cytoplasm, as well as how they intersect with chemical problems.
Pierre Rougé mostly deals with Biochemistry, Lectin, Peptide sequence, Molecular biology and Botany. Mannose, Amino acid, Binding site, Agglutinin and Glycan are among the areas of Biochemistry where he concentrates his study. Pierre Rougé works mostly in the field of Lectin, limiting it down to topics relating to Concanavalin A and, in certain cases, C-type lectin.
His Peptide sequence research also works with subjects such as
His primary areas of investigation include Biochemistry, Molecular biology, Allergen, Botany and Lectin. The concepts of his Biochemistry study are interwoven with issues in Epitope and Edible oil. His Molecular biology research is multidisciplinary, relying on both Juvenile hormone, Corpus allatum, Cancer cell, Kiwi fruit and Tn antigen.
In his study, Food allergy and Mealworm is strongly linked to Immunoglobulin E, which falls under the umbrella field of Allergen. His research in Botany focuses on subjects like Genome, which are connected to Protein domain and Ribosome-inactivating protein. The various areas that Pierre Rougé examines in his Lectin study include Cross-reactivity, Mannose, Envelope glycoprotein GP120 and Glycan.
Pierre Rougé mainly focuses on Biochemistry, Lectin, Genome, Humanities and Allergen. The Biochemistry study combines topics in areas such as Pyrus communis and Rosaceae. Pierre Rougé is involved in the study of Lectin that focuses on Jacalin in particular.
His biological study spans a wide range of topics, including Protein domain, Heterologous expression and Botany. The study incorporates disciplines such as Novel protein, In silico and Bioinformatics in addition to Allergen. Pierre Rougé combines subjects such as Agglutinin, Peptide sequence and Algae with his study of Mannose.
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Plant Lectins: A Composite of Several Distinct Families of Structurally and Evolutionary Related Proteins with Diverse Biological Roles
E. J. M. Van Damme;W. J. Peumans;A. Barre;P. Rouge.
Critical Reviews in Plant Sciences (1998)
The Medicago truncatula lysine motif-receptor-like kinase gene family includes NFP and new nodule-expressed genes.
Jean-François Arrighi;Annick Barre;Besma Ben Amor;Anne Bersoult.
Plant Physiology (2006)
A novel nuclear protein interacts with the symbiotic DMI3 calcium- and calmodulin-dependent protein kinase of Medicago truncatula.
Elsa Messinese;Jeong-Hwan Mun;Li Huey Yeun;Dhileepkumar Jayaraman.
Molecular Plant-microbe Interactions (2007)
Lectin receptor kinases participate in protein-protein interactions to mediate plasma membrane-cell wall adhesions in Arabidopsis.
Anne Gouget;Virginie Senchou;Francine Govers;Arnaud Sanson.
Plant Physiology (2006)
Mannose-binding plant lectins: different structural scaffolds for a common sugar-recognition process.
Annick Barre;Yves Bourne;Els J.M. Van Damme;Willy J. Peumans.
Cytoplasmic/nuclear plant lectins: a new story.
Els J.M. Van Damme;Annick Barre;Pierre Rougé;Willy J. Peumans.
Trends in Plant Science (2004)
Isolation and characterization of a jacalin-related mannose-binding lectin from salt-stressed rice (Oryza sativa) plants.
Wenling Zhang;Willy J. Peumans;Annick Barre;Corinne Houles Astoul.
Substrate mimicry in the active center of a mammalian α amylase: structural analysis of an enzyme–inhibitor complex
Coralie Bompard-Gilles;Patrice Rousseau;Pierre Rougé;Françeoise Payan.
Characterization of anArabidopsis thalianaGene that Defines a New Class of Putative Plant Receptor Kinases with an Extracellular Lectin-like Domain
C. Hervé;C. Hervé;P. Dabos;P. Dabos;J.-P. Galaud;J.-P. Galaud;P. Rougé;P. Rougé.
Journal of Molecular Biology (1996)
Structural basis for the unusual carbohydrate-binding specificity of jacalin towards galactose and mannose.
Yves Bourne;Corinne Houlès Astoul;Véronique Zamboni;Willy J. Peumans.
Biochemical Journal (2002)
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