His main research concerns Receptor, Biochemistry, Organic chemistry, Stereochemistry and Peptide. In his work, Pharmacology, Potency and Receptor antagonist is strongly intertwined with Endocrinology, which is a subfield of Receptor. He focuses mostly in the field of Biochemistry, narrowing it down to matters related to Cell biology and, in some cases, 5-HT5A receptor.
His study looks at the relationship between Organic chemistry and topics such as Combinatorial chemistry, which overlap with Solid-phase synthesis and Electrophile. His Stereochemistry research includes themes of Peptide bond, Dipeptide, Tetrapeptide and Peptide synthesis. His Peptide research is multidisciplinary, incorporating perspectives in Amino acid and Docking.
Jean Martinez mainly focuses on Stereochemistry, Organic chemistry, Peptide, Combinatorial chemistry and Amino acid. Jean Martinez combines subjects such as Receptor, Biological activity, Enantioselective synthesis and Peptide synthesis with his study of Stereochemistry. The subject of his Receptor research is within the realm of Internal medicine.
His Organic chemistry research is multidisciplinary, incorporating elements of Polymer chemistry and Solid-phase synthesis. His Peptide study improves the overall literature in Biochemistry. His Biochemistry study focuses on Binding site in particular.
Combinatorial chemistry, Peptide, Stereochemistry, Organic chemistry and Amino acid are his primary areas of study. His research in Combinatorial chemistry intersects with topics in Covalent bond, Grafting, Silicone and Carboxylic acid. His study in Peptide is interdisciplinary in nature, drawing from both Peptide sequence, Selenium, Polymer and Ligand.
His work investigates the relationship between Stereochemistry and topics such as Helix that intersect with problems in Side chain. His study with Amino acid involves better knowledge in Biochemistry. Jean Martinez is interested in Receptor, which is a branch of Biochemistry.
Jean Martinez mainly investigates Organic chemistry, Mechanochemistry, Nanotechnology, Combinatorial chemistry and Peptide. His Organic chemistry research includes elements of Amino acid and Polymer chemistry. His studies deal with areas such as Crystallinity, Moiety, Bipyridine, Metal-organic framework and Grafting as well as Combinatorial chemistry.
His biological study focuses on Peptide synthesis. His Amino esters study which covers Tripeptide that intersects with Stereochemistry. As part of his studies on Stereochemistry, he often connects relevant subjects like Structure–activity relationship.
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Synthetic therapeutic peptides: science and market.
Patrick Vlieghe;Vincent Lisowski;Jean Martinez;Michel Khrestchatisky.
Drug Discovery Today (2010)
Preparation of NHC–ruthenium complexes and their catalytic activity in metathesis reaction
Evelina Colacino;Jean Martinez;Frédéric Lamaty.
Coordination Chemistry Reviews (2007)
Rapid sensing of circulating ghrelin by hypothalamic appetite-modifying neurons
Marie Schaeffer;Marie Schaeffer;Fanny Langlet;Chrystel Lafont;Chrystel Lafont;François Molino.
Proceedings of the National Academy of Sciences of the United States of America (2013)
Synthesis and biological activities of some pseudo-peptide analogues of tetragastrin: the importance of the peptide backbone.
J. Martinez;J.‐P. Bali;M. Rodriguez;B. Castro.
Journal of Medicinal Chemistry (1985)
Characterization of new polyclonal antibodies specific for 40 and 42 amino acid-long amyloid beta peptides: their use to examine the cell biology of presenilins and the immunohistochemistry of sporadic Alzheimer's disease and cerebral amyloid angiopathy cases.
Hélène Barelli;Anthony Lebeau;Jean Vizzavona;Pia Delaere.
Molecular Medicine (1997)
Isoxazolidine: A Privileged Scaffold for Organic and Medicinal Chemistry
Mathéo Berthet;Thomas Cheviet;Gilles Dujardin;Isabelle Parrot.
Chemical Reviews (2016)
Identification of the Receptor Subtype Involved in the Analgesic Effect of Neurotensin
Isabelle Dubuc;Philippe Sarret;Catherine Labbé-Jullié;Jean-Marie Botto.
The Journal of Neuroscience (1999)
High constitutive activity is an intrinsic feature of ghrelin receptor protein: a study with a functional monomeric GHS-R1a receptor reconstituted in lipid discs.
Marjorie Damian;Jacky Marie;Jean-Philippe Leyris;Jean-Alain Fehrentz.
Journal of Biological Chemistry (2012)
Synthesis of 3,4,5-trisubstituted-1,2,4-triazoles.
Aline Moulin;Mathieu Bibian;Anne-Laure Blayo;Sarah El Habnouni.
Chemical Reviews (2010)
Toward potent ghrelin receptor ligands based on trisubstituted 1,2,4-triazole structure. 2. Synthesis and pharmacological in vitro and in vivo evaluations.
Aline Moulin;Luc Demange;Gilbert Bergé;Didier Gagne.
Journal of Medicinal Chemistry (2007)
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