Allosteric Inhibitory Molecular Recognition of a Photochromic Dye by a Digestive Enzyme: Dihydroindolizine makes [alpha]-chymotrypsin Photo-responsive

The structural-functional regulation of enzymes by the administration of an external stimulus such as light could create photo-switches that exhibit unique biotechnological applications. However, molecular recognition of small ligands is a central phenomenon involved in all biological processes. We...

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Veröffentlicht in:	Scientific reports 2016-09, Vol.6, p.34399
Hauptverfasser:	Bagchi, Damayanti, Ghosh, Abhijit, Singh, Priya, Dutta, Shreyasi, Polley, Nabarun, Althagafi, Ismaili, Jassas, Rabab S, Ahmed, Saleh A, Pal, Samir Kumar
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Schlagworte:	Allosteric properties Binding sites Biotechnology Chymotrypsin Electrostatic properties Energy transfer Enzymatic activity Enzymes Fluorescence resonance energy transfer Hydrophobicity Light effects Serine Serine proteinase Structure-function relationships
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description	The structural-functional regulation of enzymes by the administration of an external stimulus such as light could create photo-switches that exhibit unique biotechnological applications. However, molecular recognition of small ligands is a central phenomenon involved in all biological processes. We demonstrate herein that the molecular recognition of a photochromic ligand, dihydroindolizine (DHI), by serine protease α-chymotrypsin (CHT) leads to the photo-control of enzymatic activity. We synthesized and optically characterized the photochromic DHI. Light-induced reversible pyrroline ring opening and a consequent thermal back reaction via 1,5-electrocyclization are responsible for the photochromic behavior. Furthermore, DHI inhibits the enzymatic activity of CHT in a photo-controlled manner. Simultaneous binding of the well-known inhibitors 4-nitrophenyl anthranilate (NPA) or proflavin (PF) in the presence of DHI displays spectral overlap between the emission of CHT-NPA or CHT-PF with the respective absorption of cis or trans DHI. The results suggest an opportunity to explore the binding site of DHI using Förster resonance energy transfer (FRET). Moreover, to more specifically evaluate the DHI binding interactions, we employed molecular docking calculations, which suggested binding near the hydrophobic site of Cys-1-Cys-122 residues. Variations in the electrostatic interactions of the two conformers of DHI adopt unfavorable conformations, leading to the allosteric inhibition of enzymatic activity.
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subjects	Allosteric properties Binding sites Biotechnology Chymotrypsin Electrostatic properties Energy transfer Enzymatic activity Enzymes Fluorescence resonance energy transfer Hydrophobicity Light effects Serine Serine proteinase Structure-function relationships
title	Allosteric Inhibitory Molecular Recognition of a Photochromic Dye by a Digestive Enzyme: Dihydroindolizine makes [alpha]-chymotrypsin Photo-responsive
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