Josef Chmelı́k scite author profile

Chemosensory Proteins (CSPs) represent a family of conserved proteins found in insects that may be involved in chemosensory functions. BmorCSP1 is expressed mainly in antennae and legs of the silkworm moth Bombyx mori and was cloned from antennal cDNA. Here we report the determination of the structure of Bombyx mori CSP1 (BmorCSP1) by NMR. The overall fold of BmorCSP1 is globular and comprises six alpha-helices. These helices span residues 10-14, 17-27, 35-49, 57-72, 75-85, and 92-100. The internal hydrophobic sides of the helices are formed mostly by leucine and isoleucine residues and, therefore, well suited to constitute a binding site for hydrophobic ligands.

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Chemical Cross-Linking and H/D Exchange for Fast Refinement of Protein Crystal Structure

Rozbeský

Man

Kavan

et al. 2011

Anal. Chem.

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A combination of chemical cross-linking and hydrogen-deuterium exchange coupled to high resolution mass spectrometry was used to describe structural differences of NKR-P1A receptor. The loop region extended from the compact core in the crystal structure was found to be closely attached to the protein core in solution. Our approach has potential to refine protein structures in solution within a few days and has very low sample consumption.

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Capillary isoelectric focusing with electroosmotic zone displacement and on-column multichannel detection

Thormann

Caslavska

Molteni

et al. 1992

Journal of Chromatography A

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Reaction of N-Acetylglycyllysine Methyl Ester with 2-Alkenals: An Alternative Model for Covalent Modification of Proteins

Baker

Žı́dek

Wiesler

et al. 1998

Chem. Res. Toxicol.

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Among the various reactions of lipid peroxidation products with proteins, 2-alkenals have been shown to react extensively with the epsilon-amino group of lysine residues [Zídek et al. (1997) Chem. Res. Toxicol. 10, 702-710]. To obtain additional information about the kinetic and mechanistic aspects of this modification, a model peptide (N-acetylglycyllysine O-methyl ester) was reacted with 2-hexenal. The reaction products were characterized through a combination of NMR and MS techniques. The structural elucidation efforts have shown the formation of pyridinium salts through the reaction of two or more alkenals with one amino group. Kinetic data were obtained using a continuous infusion of the reaction mixture into an electrospray ionization mass spectrometer. A mechanism is proposed that offers an alternative model for the formation of stable protein cross-links. The reaction progresses through a Schiff base intermediate to form a dihydropyridine species which can be alternatively reduced to form various 3,4- or 2,5-substituted pyridinium species or react with another Schiff base to form a trialkyl-substituted pyridinium structure. The stoichiometry of this structure (aldehyde/amine) is 3:2, in contrast to the widely accepted 1:2. Therefore, it represents another possible cross-linking mechanism for bifunctional products of lipid peroxidation.

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Josef Chmelı́k

Structure of Bombyx mori chemosensory protein 1 in solution

Chemical Cross-Linking and H/D Exchange for Fast Refinement of Protein Crystal Structure

Capillary isoelectric focusing with electroosmotic zone displacement and on-column multichannel detection

Reaction of N-Acetylglycyllysine Methyl Ester with 2-Alkenals: An Alternative Model for Covalent Modification of Proteins

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