Please use this identifier to cite or link to this item: https://dspace.ctu.edu.vn/jspui/handle/123456789/5310
Title: Reactivity of Dimeric Tetrazirconium (IV) Wells–Dawson Polyoxometalate toward Dipeptide Hydrolysis Studied by a Combined Experimental and Density Functional Theory Approach
Authors: Lý, Thị Hồng Giang
Pierloot, Kristine
Mihaylov, Tzvetan
Vogt, Tatjana N. Parac
Absillis, Gregory
Issue Date: 2015
Series/Report no.: Inorganic Chemistry;54 .- p.11477-11492
Abstract: Detailed kinetic studies on the hydrolysis of glycylglycine (Gly-Gly) in the presence of the dimeric tetrazirconium(lV)-substituted Wells—Dawson-type polyoxo-metalate Na₁₄[Zr₄(P₂_W₁₆O₅₉)₂(µ₃-O)₂(OH)₂(H₂O)₄] •57H₂O (l) were performed by a combination of ¹H, ¹³C, and ³¹P NMR spectroscopies. The catalyst was shown to be stable under a broad range of reaction conditions. The effect of pD on the hydrolysis of Gly-Gly showed a bell-shaped profile with the fastest hydrolysis observed at pD 7.4. The observed rate constant for the hydrolysis of Gly-Gly at pD 7.4 and 60°C was 4.67 X 10⁻⁷ s⁻¹, representing a significant acceleration as compared to the uncatalyzed reaction. ¹³C NMR data were indicative for coordination of Gly-Gly to 1 via its amide oxygen and amine nitrogen atoms, resulting in a hydrolytically active complex. Importantly, the effective hydrolysis of a series of Gly-X dipeptides with different X side chain amino acids in the presence of 1 was achieved, and the observed rate constant was shown to be dependent on the volume, chemical nature, and charge of the X amino acid side chain. To give a mechanistic explanation of the observed catalytic hydrolysis of Gly-Gly, a detailed quantum-chemical study was performed. The theoretical results confirmed the nature of the experimentally suggested binding mode in the hydrolytically active complex formed between Gly-Gly and 1. To elucidate the role of 1 in the hydrolytic process, both the uncatalyzed and the polyoxometalate-catalyzed reactions were examined. In the rate-determining step of the uncatalyzed Gly-Gly hydrolysis, a carboxylic oxygen atom abstracts a proton from a solvent water molecule and the nascent OH nucleophile attacks the peptide carbon atom. Analogous general-base activity of the free carboxylic group was found to take place also in the case of polyoxometalate-catalyzed hydrolysis as the main catalytic effect originates from the —C=0---Zr(lV) binding.
URI: http://localhost:8080//jspui/handle/123456789/5310
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