Coplanar effect

The coplanar effect did not create as much excitement with the theoreticians as did the anomeric effect and its cause is not known with certainty. The simplest explanation is that the 1,3-diaxial interaction of a methyl group at position 2 of the oxane with the C-H bond at position 6 is increased because these two substituents are closer than if they were separated by -CH2- instead of -O-. The calculation for the crystalline a-o-glucopyranose, with carbon-oxygen bonds of 1.439 and 1.427 A making an angle of 113.7° between them, gives 2.400 A for the C-l-C-5 distance, whereas the corresponding value for cyclohexane is at least equal to 2.5 A. It is a well-known fact that steric strain increases rapidly as the intemuclear distance decreases. 

More broadly speaking, we can anticipate the following four orientations around the cyclic oxygen of a D-pyranose I and III for trans derivatives, and II and IV for cis (Fig. 2.9). With the exception of idose (and perhaps altrose), all of the trans derivatives, in this case the monocyclic a-D-hexopyranoses and their derivatives, exist under the only observable conformation, d- Ci, which corresponds to the local conformation I, doubly stabilized by the anomeric and coplanar effects. 

In fact, the conformation of pyranoses is dominated by two effects, not present in the cyclohexane, which appear at positions 2 and 6 of the oxane. One of them is characteristic of hexopyranoses and I propose that we call this the coplanar effect in order not to imply a particularly restrictive structure by using the name of an effect already present in methoxyethane. The other effect, present in all pyranoses, is referred to as anomeric. This name, taken from the nomenclature of sugars because it was first recognized in this family, in fact disguises its general nature since it is also present in methyl chloromethyl ether. The consequences of these effects can be modulated by cyclohexane-type interactions, but not to the point where more than a qualitative discussion is necessary. 

The vigorous anchoring of nearly all the hexopyranoses in D- C (l- C4) conformations by the coplanar effect brings about a certain rigidity of the oligosaccharide chains. It is possible that the introduction of ido residues with a flexible conformation into certain sites creates the flexibility indispensible for certain functions. 

An atom lhai hassp h yhridi/alion lends lo be coplanar wilh its attached aloms. This effect isaccoiinled for by improper torsions in Olher force fields and by oiil-of-plane-bending inlcraclions in... 

Effects that arise because one spatial arrangement of electrons (or orbitals or bonds) IS more stable than another are called stereoelectronic effects There is a stereoelec tromc preference for the anti coplanar arrangement of proton and leaving group in E2 reactions Although coplanarity of the p orbitals is the best geometry for the E2 process modest deviations from this ideal can be tolerated In such cases the terms used are syn periplanar and anti periplanar... 

An atom that has sp hybridization tends to be coplanar with its attached atoms. This effect is accounted for by improper torsions in other force fields and by out-of-plane-bending interactions in... 

Dienes would be expected to adopt conformations in which the double bonds are coplanar, so as to permit effective orbital overlap and electron delocalization. The two alternative planar eonformations for 1,3-butadiene are referred to as s-trans and s-cis. In addition to the two planar conformations, there is a third conformation, referred to as the skew conformation, which is cisoid but not planar. Various types of studies have shown that the s-trans conformation is the most stable one for 1,3-butadiene. A small amount of one of the skew conformations is also present in equilibrium with the major conformer. The planar s-cis conformation incorporates a van der Waals repulsion between the hydrogens on C—1 and C—4. This is relieved in the skew conformation. 

In ion D, in which the phenyl group would be expected to be coplanar with the cationic center to maximize delocalization, the observed angle is 25-30°. This should permit effective benzylic stabilization. The planes of the cyclopropyl groups in both structures are at 85° to file plane of file trigonal carbon, in agreement with expectation for the bisected... 

An interesting and useful property of enamines of 2-alkylcyclohexanones is the fact that there is a substantial preference for the less substituted isomer to be formed. This tendency is especially pronounced for enamines derived from cyclic secondaiy amines such as pyrrolidine. This preference can be traced to a strain effect called A or allylic strain (see Section 3.3). In order to accommodate conjugation between the nitrogen lone pair and the carbon-carbon double bond, the nitrogen substituent must be coplanar with the double bond. This creates a steric repulsion when the enamine bears a p substituent and leads to a... 

Bromination has been shown not to exhibit a primary kinetic isotope effect in the case of benzene, bromobenzene, toluene, or methoxybenzene. There are several examples of substrates which do show significant isotope effects, including substituted anisoles, JV,iV-dimethylanilines, and 1,3,5-trialkylbenzenes. The observation of isotope effects in highly substituted systems seems to be the result of steric factors that can operate in two ways. There may be resistance to the bromine taking up a position coplanar with adjacent substituents in the aromatization step. This would favor return of the ff-complex to reactants. In addition, the steric bulk of several substituents may hinder solvent or other base from assisting in the proton removal. Either factor would allow deprotonation to become rate-controlling. 

The steric effects related to the coplanarity of an activating cen- ej.77c,97d,ioi,i23 generally be applicable to azine activating... 

Other substituted systems, however, might be planar due to conjugation effects with acceptor substituents, as has been found in an X-ray structural analysis of 1,4-dioxocin-6-carboxylic acid chloride the eight-membered ring is practically planar with a coplanar arrangement of the substituent.9... 

De la Mare and Hassan254 obtained second-order rate coefficients (in parenthesis) for the following 4-methylacetanilide (1.53), 2-methylacetanilide (0.193), 2,6-dimethylacetanilide (0.0118), acetanilide (0.93), 4-acetamidodiphenyl (0.248) and 1,4-diacetamidobenzene (0.231) the results for the acetanilides demonstrated the effect of steric hindrance to coplanarity thereby inhibiting resonance of the nitrogen lone pair with the aromatic ring. The rate coefficients for chlorination of 3-chloroacetanilide (0.215), 4-chloroacetanilide (0.010) 3-nitroacetanilide (6.7 x 10 5) and phenyl benzoate (3.2 x 10-6) have also been measured258,261. 

The rates of chlorination of bridged biphenyls have also been measured and show the effect of coplanarity on reactivity. Second-order rate coefficients (104A 2) at 25 °C were fluorene (1,700), 9,10-dihydrophenanthrene (170), 1,2 3,4-di-benzocyclohepta-1,3-diene (9.70), 5-methyl-l,2 3,4-dibenzocyclohepta-l,3-diene... 

Apparently the complex formation with a 71-acceptor is suitable for characterization of the donor ability of the entire -system of the monomers. Simultaneously, it can be derived that the EDA-complex formation is only insignificantly influenced by steric effects. Because the above named variation in structure does not disturb the planarity of the center of the monomer double bond, the interaction of the 71-systems from both donor and coplanar acceptor cannot be limited by steric effects. 

When equation (9) is applied to the transition state of the biphenyl system, it gives directly the isotopic difference in the activation enthalpy per interacting pair of atoms, provided we make the reasonable assumption that initial-state steric effects are independent of isotopic substitution in the 6- and 6 -positions. Since there are two pairs of interacting atoms in the coplanar transition state, the final expression is... 

PhsSnflV)] carboxylates and of some 1 1 addition compounds of PhsSnCl and 2,3-disubstituted thiazolidin-4-ones indicate that the carboxylates in the solid state are monomeric with a Sn atom = 2.14—2.54 mm s the only exception being the furan-2-carboxylic acid derivative, which is polymeric. The PhsSnCl adducts are Thp (I Ag p I = 2.97-3.08 mm s ) with the three Ph groups in a not coplanar eq plane. These complexes are effective inhibitors of C. The 2,3-disubstituted... 

There is a considerable presumption that steric twisting from coplanarity, which diminishes effective transmittal of pi-electron effects, has appreciable effect on X. For example, the X = 1.10 for the phthalide saponification rate (no. 28 of Table III) compared with X=. 89 for the corresponding benzoate saponification rate is probably a reflection of the rigid coplanarity conditions imposed in the former structure. However, the reactions were carried out in differing compositions of H2 0-Et0H solvent, so that a solvent effect may also be involved. 

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