Toward the origin of the conformational preference of 2-methoxyoxane, a model useful to study the anomeric effect

Martínez, Karina D.; Cortés, Fernando; Leal, Ingrid Lessa; Reyna, Vanessa; Quintana, Delia; Antúnez, Sandra; Cuevas, Gabriel

doi:10.3998/ark.5550190.0004.b14

Cited by 8 publications

(6 citation statements)

References 11 publications

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“…As discussed above, the origin of mutarotation in imines derived from 2-amino-2-deoxyaldoses can be traced on the one hand to anomerization equilibria and on the other to the existence of imine-enamine structures via tautomerization. Among the stereoconformational aspects controlling the molecular arrangements observed in carbohydrates, the anomeric, exoanomeric, and gauche effects are the most prominent . Not by chance, the interpretation of the anomeric effects and other associated stereoelectronic effects in six-membered saturated heterocycles has been extensively documented. ,− …”

Section: Resultsmentioning

confidence: 99%

“…Among the stereoconformational aspects controlling the molecular arrangements observed in carbohy- drates, the anomeric, exoanomeric, 40 and gauche effects 41 are the most prominent. 42 Not by chance, the interpretation of the anomeric effects and other associated stereoelectronic effects in six-membered saturated heterocycles has been extensively documented. 40,43−46 Even if the first observations of "anomalous effects" date back to early studies on mutarotation, 46 the preferential stabilization of pyranose rings when they contain an axial electronegative substituent at C1 is contrary to expectations based on considerations of steric or solvation factors.…”

Section: ■ Introductionmentioning

confidence: 99%

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A True Reverse Anomeric Effect Does Exist After All: A Hydrogen Bonding Stereocontrolling Effect in 2-Iminoaldoses

Matamoros,

Pérez,

Light

et al. 2024

J. Org. Chem.

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The reverse anomeric effect is usually associated with the equatorial preference of nitrogen substituents at the anomeric center. Once postulated as another anomeric effect with explanations ranging from electrostatic interactions to delocalization effects, it is now firmly considered to be essentially steric in nature. Through an extensive research on aryl imines from 2-amino-2-deoxyaldoses, spanning nearly two decades, we realized that such substances often show an anomalous anomeric behavior that cannot easily be rationalized on the basis of purely steric grounds. The apparent preference, or stabilization, of the β-anomer takes place to an extent that not only neutralizes but also overcomes the normal anomeric effect. Calculations indicate that there is no stereoelectronic effect opposing the anomeric effect, resulting from the repulsion between electron lone pairs on the imine nitrogen and the endocyclic oxygen. Such data and compelling structural evidence unravel why the exoanomeric effect is largely inhibited. We are now confident, as witnessed by 2-iminoaldoses, that elimination of the exo-anomeric effect in the α-anomer is due to the formation of an intramolecular hydrogen bond between the anomeric hydroxyl and the iminic nitrogen, thereby accounting for a true electronic effect. In addition, discrete solvation may help justify the observed preference for the β-anomer.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

A True Reverse Anomeric Effect Does Exist After All: A Hydrogen Bonding Stereocontrolling Effect in 2-Iminoaldoses

Matamoros,

Pérez,

Light

et al. 2024

J. Org. Chem.

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“…In this approach, the electronic wave function of the molecule is treated as a linear combination of localized orbitals, either Lewis occupied, or non-Lewis unoccupied. Examination of delocalizations between these orbitals and evaluation of the energies associated with their interactions is a common technique. − ,20b,− It can be accomplished either by inspecting the electronic energy partitioning obtained from second-order perturbation theory 13,34 or by performing selective deletions of off-diagonal elements of the Fock matrix. , …”

Section: Resultsmentioning

confidence: 99%

“…Experimental methods are by far more common in studying modifications to the geometrical and thermodynamical parameters affected by the stereoelectronic effect, [3][4][5][6][7][8] while the theoretical approach is the method of choice to investigate the fundamental mechanisms underlying this phenomenon. [9][10][11][12][13][14] Conformational preferences of the acetal moiety C-O-C- O-C are in principle governed by a stereoelectronic effect defined as a delocalization of an oxygen lone pair into a C-O antibonding orbital (n O f σ C-O *). The highest stability of such a fragment is a consequence of the most effective overlap between the above-mentioned orbitals, which can be achieved for either a gauche+/gauche+ (g+g+) or gauche+/gauche-(g+g-) atom arrangement.…”

Section: Introductionmentioning

confidence: 99%

“…For the last five decades the stereoelectronic effect, being one of the key structural factors recognized in a vast number of natural and synthetic compounds, has attracted considerable attention among both experimental and theoretical chemists. , Numerous attempts have been undertaken to investigate consequences and to understand the origin and nature of this effect. Experimental methods are by far more common in studying modifications to the geometrical and thermodynamical parameters affected by the stereoelectronic effect, − while the theoretical approach is the method of choice to investigate the fundamental mechanisms underlying this phenomenon. − …”

Section: Introductionmentioning

confidence: 99%

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Conformational Analysis of Nine-Membered Cyclic Acetals. Stereoelectronic Effect in 2,4- and 3,5-Benzodioxonine Derivatives

Migda

Ryś

2006

J. Org. Chem.

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Conformations of the title compounds were examined using DFT calculations and NBO analysis in order to find the origins of their conformational preferences. The most stable conformations were TBC and TCBtype-1 for the 2,4- and 3,5-benzodioxonine derivatives, respectively. In both of these conformations the acetal moiety adopts the g+/-g+/- geometry. The NBO analysis yielded values of the stabilization energy associated with the stereoelectronic nO --> sigmaC-O* interactions that were highest for conformations other than the global minima. Conformers displaying the strongest interactions followed different patterns of atom arrangement within the acetal moiety, namely g+g-, and those in which one or both of the torsion angles within the C-O-C-O-C segment were close to 90 degrees . Steric repulsion caused by alkyl substituents at the anomeric carbon was found to influence the strength of the nO --> sigmaC-O* stabilization through modification of bond lengths and torsion angles. The adopted ground-state conformations result from accommodation of steric repulsions and stabilizing stereoelectronic interactions. It was shown that DFT calculations of conformational preferences of acetals together with GIAO prediction of 13C chemical shifts should be a useful methodology for studies on conformation and conformational equilibria of acetals in solution.

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Atoms in molecules interpretation of the anomeric effect in the OCO unit

Vila

Mosquera

2007

J Comput Chem

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The conformational preferences of two model compounds for the O--CH2--O anomeric unit: methanediol and dimethoxymethane analyzed within the framework of the QTAIM theory provide a new interpretation of the anomeric effect. The characteristic stabilization of the gauche conformers of these compounds is accompanied by a progressive reduction of the electron population of the hydrogens of the central methylene as the number of their gauche interactions to lone pairs rises. The electron population removed from these atoms during the conformational change is gained in the gauche conformers by atoms of larger atomic number, which results in a more negative molecular energy. Also, the variations displayed by atomic populations and the QTAIM delocalization indexes are not keeping in line with the hyperconjugative model of the anomeric effect.

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Toward the origin of the conformational preference of 2-methoxyoxane, a model useful to study the anomeric effect

Cited by 8 publications

References 11 publications

A True Reverse Anomeric Effect Does Exist After All: A Hydrogen Bonding Stereocontrolling Effect in 2-Iminoaldoses

A True Reverse Anomeric Effect Does Exist After All: A Hydrogen Bonding Stereocontrolling Effect in 2-Iminoaldoses

Conformational Analysis of Nine-Membered Cyclic Acetals. Stereoelectronic Effect in 2,4- and 3,5-Benzodioxonine Derivatives

Atoms in molecules interpretation of the anomeric effect in the OCO unit

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