Khalid Abu Khadra scite author profile

Structure-activity correlations have been employed previously in the mechanistic interpretation of TTQ-dependent amine dehydrogenases using a series of para-substituted benzylamines. However, by combining the use of kinetic isotope effects (KIEs) and crystallographic analysis, in conjunction with structure-reactivity correlation studies, we show that para-substituted benzylamines are poor reactivity probes for TTQ-dependent aromatic amine dehydrogenase (AADH). Stopped-flow kinetic studies of the reductive half-reaction, with para-substituted benzylamines and their dideuterated counterparts, demonstrate that C-H or C-D bond breakage is not fully rate limiting (KIEs approximately unity). Contrary to previous reports, Hammett plots exhibit a poor correlation of structure-reactivity data with electronic substituent effects for para-substituted benzylamines and phenylethylamines. Crystallographic studies of enzyme-substrate complexes reveal that the observed structure-reactivity correlations are not attributed to distinct binding modes for para-substituted benzylamines in the active site, although two binding sites for p-nitrobenzylamine are identified. We identify structural rearrangements, prior to the H-transfer step, which are likely to limit the rate of TTQ reduction by benzylamines. This work emphasizes (i) the need for caution when applying structure-activity correlations to enzyme-catalyzed reactions and (ii) the added benefit of using both isotope effects and structural analysis, in conjunction with structure-reactivity relationships, to study chemical steps in enzyme reaction cycles.

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Tryptophan tryptophylquinone cofactor biogenesis in the aromatic amine dehydrogenase of Alcaligenes faecalis

Hothi

Khadra

Combe

et al. 2005

The FEBS Journal

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Aromatic amine dehydrogenase (AADH) is a tryptophan tryptophylquinone (TTQ)-dependent quinoprotein that catalyses the oxidative deamination of a wide range of amines to their corresponding aldehydes and ammonia [1]. Electrons released upon substrate oxidation are transferred to the TTQ cofactor ( Fig. 1) and then to the physiological electron acceptor, azurin, which mediates electron transfer from the dehydro- The heterologous expression of tryptophan trytophylquinone (TTQ)-dependent aromatic amine dehydrogenase (AADH) has been achieved in Paracoccus denitrificans. The aauBEDA genes and orf-2 from the aromatic amine utilization (aau) gene cluster of Alcaligenes faecalis were placed under the regulatory control of the mauF promoter from P. denitrificans and introduced into P. denitrificans using a broad-host-range vector. The physical, spectroscopic and kinetic properties of the recombinant AADH were indistinguishable from those of the native enzyme isolated from A. faecalis. TTQ biogenesis in recombinant AADH is functional despite the lack of analogues in the cloned aau gene cluster for mauF, mauG, mauL, mauM and mauN that are found in the methylamine utilization (mau) gene cluster of a number of methylotrophic organisms. Steady-state reaction profiles for recombinant AADH as a function of substrate concentration differed between 'fast' (tryptamine) and 'slow' (benzylamine) substrates, owing to a lack of inhibition by benzylamine at high substrate concentrations. A deflated and temperature-dependent kinetic isotope effect indicated that C-H ⁄ C-D bond breakage is only partially rate-limiting in steady-state reactions with benzylamine. Stopped-flow studies of the reductive half-reaction of recombinant AADH with benzylamine demonstrated that the KIE is elevated over the value observed in steady-state turnover and is independent of temperature, consistent with (a) previously reported studies with native AADH and (b) breakage of the substrate C-H bond by quantum mechanical tunnelling. The limiting rate constant (k lim ) for TTQ reduction is controlled by a single ionization with pK a value of 6.0, with maximum activity realized in the alkaline region. Two kinetically influential ionizations were identified in plots of k lim ⁄ K d of pK a values 7.1 and 9.3, again with the maximum value realized in the alkaline region. The potential origin of these kinetically influential ionizations is discussed.Abbreviations AADH, aromatic amine dehydrogenase; aau, aromatic amine utilization; DCPIP, dichlorophenol indophenol; KIE, kinetic isotope effect; MADH, methylamine dehydrogenase; mau, methylamine utilization; ORF, open reading frame; PES, phenazine ethosulfate; TTQ, tryptophan tryptophylquinone.

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Levels of Heavy Metals in Fishes (<i>Cheilinus trilobatus</i>) from the Gulf of Aqaba, Jordan

Al-Najjar¹,

Al-Momani²,

Khalaf³

et al. 2016

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Synthesis of novel p-tert-butylcalix[4]arene Schiff bases and their complexes with C60, potential HIV-Protease inhibitors

Khadra

Mizyed

Marji

et al. 2015

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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