Strain effect

To devise analogues of such effects of conformational changes in chemical models is difficult. Almost invariably studies have been directed at elucidating the mechanism of bond-breaking and -making whilst ignoring possible conformational or strain effects. This is necessary in our present state of knowledge of enzymes and of solution chemistry, but for a complete description such effects must be taken into account. 

A recent example of a chemical study showing how strain effects could be important in an enzymatic reaction, dealt with the hydrolysis of benzaldehyde di-t-butyl acetal [18] (Anderson and Fife, 1971b). As shown by a Stuart-Briegleb model, substantial ground-state strain is present which would be partially relieved in the 

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Chelation itself is sometimes useful in directing the course of synthesis. This is called the template effect (37). The presence of a suitable metal ion facihtates the preparation of the crown ethers, porphyrins, and similar heteroatom macrocycHc compounds. Coordination of the heteroatoms about the metal orients the end groups of the reactants for ring closure. The product is the chelate from which the metal may be removed by a suitable method. In other catalytic effects, reactive centers may be brought into close proximity, charge or bond strain effects may be created, or electron transfers may be made possible. 

In the main, the physical and chemical properties of saturated and partially unsaturated alicyclic compounds closely resemble those of the analogous acyclic compounds formally derived by cleavage of the carbon ring at a point remote from any functionality. Relatively small, but often significant, differences in properties arise from conformational effects, and from strain effects in small rings, and these differences can be striking in properties which are particularly sensitive to molecular shape. 

Conversely, processes which convert carbons to sfp- carbons are more favorable for five-membered than for six-membered rings. This can be illustrated by the data for acetolysis of cyclopentyl versus cyclohexyl tosylate. The former proceeds with an enthalpy of activation about 3kcal/mol less than the latter." A molecular mechanics analysis found that the difference was largely accounted for by the relief of torsional strain in the cyclopentyl case." Notice that there is an angle-strain effect which is operating in the opposite direction, since there will be some resistance to the expansion of the bond angle at the reaction center to 120° in the cyclopentyl ring. 

Steric and Strain Effects on Substitution and Ionization Rates... 

SECTION 5.7 STERIC AND STRAIN EFFECTS ON SUBSTITUTION AND IONIZATION RATES... 

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... 

Thus, reduction of the bicyclic derivatives 25 (RR = CH2 RR = CH=C(Ph)) affords the corresponding 26a-type products, while hydrogenation of 2-ethoxy-3-acetylpyridine gives, along with the carbonyl group reduction product, the imine isomer 26b (R = Me, R = Et). These results were explained by the so-called internal strain effect, e.g., by steric repulsion between the nitrogen and oxygen lone pair in rotationally restricted bicyclic derivatives or between the 2 and 3 substituents. 

FIGURE 6.4. Examining the strain hypothesis by a free-energy perturbation study. The results are plotted as a function of rather than A, for simplicity. The AG is given relative to the reference potential [-Kcos( Ci 0s)]. The figure demonstrates that the strain effect is not significant. 

Back strain effects are most important for the homolysis of hydrocarbons (4), a highly endothermic reaction, which does not produce a stable molecule byproduct, as do diazenes (N2) and peresters (CO2). Destabilization of the reactants in reaction 4 back strain is essential in lowering the energy of activation of reaction. The results of this study suggest that only reaction 4 requires the use of A values to obtain a good correlation between reaction temperatures and calculated product radical stabilities. 

Chromosomal mutations in E. coli result in overproduction of dihydrofolate reductase (DHFR). Higher concentrations of trimethoprim, which may not be therapeutically achievable, are therefore required to inhibit nucleotide metabolism. Other mutations lower the affinity of DHFR for trimethoprim. These two mechanisms of resistance may coexist in a single strain, effectively increasing the level of resistance to the antibiotic. 

Several peaks of interest (ideally higher order reflections of the same type hkl, 2h, 2k, 21, 3h, 3k, 31,. .., nh, nk, nl) are fitted by Fourier series the same procedure is applied to the diffraction lines of a reference sample, in which size and strain effects are negligible, in order to determine the instrumental line broadening. Such information is used in order to deconvolute instrumental broadening from sample effects (Stokes-Fourier deconvolution [36]). 

Pseudomorphic Pt monolayers on Ru(0001) interact very weakly with H pd, OHad, or Oad, because of electronic ligand (vertical ligand effects) and strain effects (tensile strain), in agreement with results obtained under UHV conditions and in DPT calculations. Therefore, base CVs on these surfaces do not show pronounced voltammettic features. 

Tsuda M, Kasai H. 2006. Ah initio study of alloying and straining effects on CO interaction with Pt. Phys Rev B 73 155405. 

J. D. Lewis, R. B. Thomas, and B. R. Strain, Effect of elevated COi on mycorrhizal colonization of loblolly pine Pinus taeda L.) seedlings. Plant Soil /65 81 (1994). 

The rapid and reversible formation of complexes between some metal ions and organic compounds that can function as electron donors can be used to adjust retention and selectivity in gas and liquid chromatography. Such coordinative interactions are very sensitive to subtle differences in the composition or stereochemistry of the donor ligand, owing to the sensitivity of the chemical bond towards electronic, steric and strain effects. A number of difficult to separate mixtures of stereoisomers and isotopomers have been separated by complexation chromatography. 

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