Influence of water and enzyme SpnF on the dynamics and energetics of the ambimodal [6+4]/[4+2] cycloaddition

SpnF is the first monofunctional Diels–Alder/[6+4]-ase that catalyzes a reaction leading to both Diels–Alder and [6+4] adducts through a single transition state. The environment-perturbed transition-state sampling method has been developed to calculate free energies, kinetic isotope effects, and quasi-classical reaction trajectories of enzyme-catalyzed reactions and the uncatalyzed reaction in water. Energetics calculated in this way reproduce the experiment and show that the normal Diels–Alder transition state is stabilized by H bonds with water molecules, while the ambimodal transition state is favored in the enzyme SpnF by both intramolecular hydrogen bonding and hydrophobic binding. Molecular dynamics simulations show that trajectories passing through the ambimodal transition state bifurcate to the [6+4] adduct and the Diels–Alder adduct with a ratio of 1:1 in the gas phase, 1:1.6 in water, and 1:11 in the enzyme. This example shows how an enzyme acts on a vibrational time scale to steer post-transition state trajectories toward the Diels–Alder adduct.

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NMR of Natural Products as Potential Drugs

Molecules ◽

10.3390/molecules26123763 ◽

2021 ◽

Vol 26 (12) ◽

pp. 3763

Author(s):

Poul Erik Hansen

Keyword(s):

Natural Products ◽

Hydrogen Bonding ◽

Density Functional ◽

Chemical Shifts ◽

Isotope Effects ◽

Density Functional Theory Calculations ◽

Intramolecular Hydrogen Bonding ◽

Chemical Equilibria ◽

Nmr Techniques ◽

Intramolecular Hydrogen

This review outlines methods to investigate the structure of natural products with emphasis on intramolecular hydrogen bonding, tautomerism and ionic structures using NMR techniques. The focus is on 1H chemical shifts, isotope effects on chemical shifts and diffusion ordered spectroscopy. In addition, density functional theory calculations are performed to support NMR results. The review demonstrates how hydrogen bonding may lead to specific structures and how chemical equilibria, as well as tautomeric equilibria and ionic structures, can be detected. All these features are important for biological activity and a prerequisite for correct docking experiments and future use as drugs.

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ChemInform Abstract: Transition State Structure Variation in the Diels-Alder Reaction from Secondary Deuterium Kinetic Isotope Effects: The Reaction of a Nearly Symmetrical Diene and Dienophile Is Nearly Synchronous.

ChemInform ◽

10.1002/chin.198750089 ◽

1987 ◽

Vol 18 (50) ◽

Author(s):

J. J. GAJEWSKI ◽

K. B. PETERSON ◽

J. R. KAGEL

Keyword(s):

Transition State ◽

Isotope Effects ◽

Kinetic Isotope Effects ◽

Alder Reaction ◽

Diels Alder ◽

State Structure ◽

Transition State Structure ◽

Structure Variation ◽

Kinetic Isotope ◽

Diels Alder Reaction

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Intramolecular hydrogen bonding and tautomerism of acylpyran-2,4-diones, -2,4,6-triones and acylpyridinediones and benzannelated derivatives. Deuterium isotope effects on 13C NMR chemical shifts

Journal of the Chemical Society Perkin Transactions 2 ◽

10.1039/p29950001901 ◽

1995 ◽

pp. 1901 ◽

Cited By ~ 22

Author(s):

Poul Erik Hansen ◽

Simon Bolvig ◽

Thomas Kappe

Keyword(s):

Hydrogen Bonding ◽

13C Nmr ◽

Chemical Shifts ◽

Isotope Effects ◽

Intramolecular Hydrogen Bonding ◽

Nmr Chemical Shifts ◽

13C Nmr Chemical Shifts ◽

Deuterium Isotope Effects ◽

Intramolecular Hydrogen

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Structure and Conformations of Gaba-Transaminase Inhibitors. I. Multisubstrate Analogs

Australian Journal of Chemistry ◽

10.1071/ch9861559 ◽

1986 ◽

Vol 39 (10) ◽

pp. 1559

Author(s):

PR Andrews ◽

V Cody ◽

MN Iskander ◽

AI Jeffrey ◽

MF Mackay ◽

...

Keyword(s):

Hydrogen Bonding ◽

Transition State ◽

Intramolecular Hydrogen Bonding ◽

Side Chain ◽

Gaba Transaminase ◽

X Ray ◽

Potential Energy Calculations ◽

Phenolic Oxygen ◽

Structural Differences ◽

Intramolecular Hydrogen

Two multisubstrate analogues of the transition state in the reaction catalysed by the enzyme GABA- transaminase (E.C. 2.6.1.19), sulfonic acid pyridoxal dervative , C10H16N2O5S (1) and carboxylic acid pyridoxal derivative, C13H18N2O4 (2), have been characterized by X-ray analyses of crystals of (1). HCl , (1).H2O and (2). HCl . In each structure, the nitrogen on the side chain is the donor in intramolecular hydrogen bonding. However, it is only in (2). HCl that this interaction is with the phenolic oxygen as postulated in the proposed transition state of the reaction catalysed by GABA- transaminase . For both structures of (1), on the other hand, this interaction is with the oxygen of the ring hydroxymethyl substituent, and results in a seven- membered ring. Conformational analysis indicates that both modes of hydrogen bonding may be present in the pyridoxal derivatives, although no quantitative assessment is possible at the MINDO/3 or MNDO levels. Simple classical potential energy calculations indicate significant structural differences between the lowest energy conformations of these compounds and the calculated transition state. However, conformations which match the key features of the transition state are also relatively low in energy.

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