Discrimination, intramolecular

Intramolecular Sm(n)-mediated coupling of ketones with distal vinylepoxides results in the corresponding carbocydic derivatives with good to excellent diaster-eoselectivity [125], When the reaction was conducted with enantioenriched substrates the products were obtained with poor ees, indicating low it-facial discrimination in this reaction. 

Experimental studies of liquid crystals have been used for many years to probe the dynamics of these complex molecules [12]. These experiments are usually divided into high and low-frequency spectral regions [80]. This distinction is very important in the study of liquid crystalline phases because, in principle, it can discriminate between inter- and intramolecular dynamics. For many organic materials vibrations above about 150 cm are traditionally assigned to internal vibrations and those below this value to so-called lattice modes . However, the distinction is not absolute and coupling between inter- and intramolecular modes is possible. 

In the dihapto mode the pyridine ring can be protonated intermolecularly at nitrogen, or even intramolecularly deprotonated at carbon. The first evidence for metal C—N insertion is the reaction of the metallaaziridine complex (111) with homogeneity LiHBEt3 in THF at low temperature that yields (112) (Scheme 49).251-254 Experiments with carbon nucleophiles (RMgCl, MeLi) in place of LiHBEt3 have provided valuable information to allow discrimination between... 

Substituted 3-hydroxy-2-pyrrolidinones were synthesised via 1,3-DC reactions of furfuryl nitrones with acrylates and subsequent intramolecular cyclisation after N-0 bond reduction. Addition of iV-acryloyl-(2/()-bomane-10,2-sultam to Z-nitrone 83 gave the endo/exo cycloadducts in 85 15 ratio with complete stereoface discrimination <00JOC1590>. The 1,3-DC of pyrroline A-oxide to chiral pentenoates using (-)-/rans-2-phenylcyclohexanol and (-)-8-phenylmenthol as chiral auxiliaries occurred with moderate stereocontrol (39% de and 57% de, respectively) and opposite sense of diastereoselectivity <00EJO3595>. The... 

Solid state 2H NMR parameters are almost exclusively governed by the quadrupole interaction with the electric field gradient (EFG) tensor at the deuteron site.1 8 The EFG is entirely intramolecular in nature. Thus molecular order and mobility are monitored through the orientation of individual C-2H bond directions. Therefore, 2H NMR is a powerful technique for studying local molecular motions. It enables us to discriminate different types of motions and their correlation times over a wide frequency range. Dynamics of numerous polymers has been examined by solid state 2H NMR.1 3,7,9 Dynamic information on polypeptides by NMR is however limited,10 26 although the main-chain secondary structures of polypeptides in the solid have been extensively evaluated by 13C and 15N CP/MAS NMR.27,28... 

An enantioselective intramolecular Pauson-Khand reaction based on chiral auxiliary-directed 7t-face discrimination in acetylenic 0-alkyl enol ether-dicobalt hexacarbonyl complexes, which proceeds with good yields and high facial diastereoselectivity, has recently been developed by M.A. Pericas, A. Moyano, A.E. Greene and their associates. The method has been applied to an enantioselective formal synthesis of hirsutene. Moreover, the process is stereodivergent and the chiral auxiliary -rran5-2-phenylcyclohexanol- is recovered in a yield as high as 92% [18]. 

Nu—M) being the same in 10 and 11. The discrimination can come only from intramolecular interactions in the substrate, which is rather surprising for a bimolecular reaction. In their original paper Felkin and his coworkers postulated that the interactions of substituents M and S are stronger with R than with 0. It is not clear why this should be so, as the predominance of R over O must hold even for R = H. Nevertheless, this hypothesis allows the correct prediction of the stereochemistry, agrees well with the observation that selectivity increases with the bulkiness of R, and for these reasons, has not been questioned. 

Treatment of the /J-hydroxy complex 15 with two equivalents of strong base followed by alkylation produces a mixture of the diastereomers 20 and 21 with an anomalously low d.r.27. The low degree of diastereofacial discrimination has been rationalized by invoking the formation of both rotamers of the initially formed alkoxide, 16 and 17. Rotamer 16 undergoes a-proton abstraction by a second equivalent of base to form the chelated dianionic Tf-enolate 18 which upon alkylation affords the usual diastereomer 20. Rotamer 17 is thought to rapidly transform to a metallo-lactone species by intramolecular attack of the alkoxide upon the proximate carbon monoxide ligand, which must occur faster than conversion to the less sterically encumbered conformer 16. Subsequent deprotonation to generate dianion 19, which is constrained to exist as the unusual Z-enolate, followed by alkylation provides the other diastereomer 21, which is formed in an amount nearly equal to 20. 

Effects of solvent mixtures can be seen in biochemical systems. Ligand binding to myoglobin in aqueous solution involves two kinetic components, one extramolecular and one intramolecular, which have been interpreted in terms of two sequential kinetic barriers. In mixed solvents and subzero temperatures, the outer barrier increases and the inner barrier splits into several components, giving rise to fast intramolecular recombination. Measurements of the corresponding solvent structural relaxation rates by frequency resolved calorimetry allows the discrimination between solvent composition and viscosity-related effects. The inner barrier and its coupling to structural relaxation appear to be independent of viscosity but change with solvent composition (Kleinert et al., 1998). 

As the Connolly studies suggested (Sect. 3.5), protonated concave pyridines should be able to discriminate between small and large molecules. In a model reaction, a protonation reaction has therefore been examined. The protonation of nitronate ions 44 has been chosen [35] (Scheme 8). In these ions an intramolecular competition of carbon versus oxygen protonation leads to nitro (45) or flci-nitro (46) compounds. The latter ones may then be hydrolyzed by way of the Nef-reaction [36] to form carbonyl compounds 47. 

Enantiotopos discrimination, 93, 128, 142, 234, 235, 331 Ene reactions asymmetric, 223 binaphthol, 222 chiral metal complexes, 222 intramolecular, 226 methyl glyoxylate, 290 Enol silyl ether substrates, 128, 228, 230 Enol substrates, 28 Enolates ... 

The intramolecular group interaction in a solute molecule influences the aqueous solubility significantly. Henceforth, GCMs with a set of highly discriminative groups,... 

The chiral discrimination in cyclic dimers and trimers of mono-substituted sulfoxides and thioperoxides (Scheme 3.21) has been studied by means of DFT (B3LYP/6-31+G ) and ab initio (MP2/6-311+G ) calculations [5]. In addition, the inter- and intramolecular proton transfer processes that interconvert these two classes of compounds have been considered for the isolated molecules and the clusters. These two classes of compounds present different kinds of chirality, while the sulfoxides show a stereogenic sulfur atom, the thioperoxides present axial chirality. 

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