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Transition acyclic

The reactions of enamines as 1,3-dipolarophiles provide the most extensive examples of applications to heterocyclic syntheses. Thus the addition of aryl azides to a large number of cyclic (596-598) and acyclic (599-602) enamines has led to aminotriazolines which could be converted to triazoles with acid. Particular attention has been given to the direction of azide addition (601,603). While the observed products suggest a transition state in which the development of charges gives greater directional control than steric factors, kinetic data and solvent effects (604-606) speak against zwitterionic intermediates and support the usual 1,3-dipolar addition mechanism. [Pg.440]

For acyclic allylic substrates die situation is mote complex, since a larger number of reactive conformations, and betice corcesponding transition states, compete. Hius, mediyl ciimamyl derivatives 163 tX= O.Acj, upon treatment witli litliiiim dimetliylcuprate, mainly gave tlie S 2 substitution product 166 fentry 1, Tab. 6.6 and Sdieme 6.34) [80]. Hie preference for die S 2 product is expected, since de-conjugation of die alkene system is electronically imfavorable. [Pg.212]

The thermolysis of xanthates derived from primary alcohols yields one olefin only. With xanthates from secondary alcohols (acyclic or alicyclic) regioisomeric products as well as fi/Z-isomers may be obtained see below. While acyclic substrates may give rise to a mixture of olefins, the formation of products from alicyclic substrates often is determined by the stereochemical requirements the /3-hydrogen and the xanthate moiety must be syn to each other in order to eliminate via a cyclic transition state. [Pg.53]

Acyclic diene molecules are capable of undergoing intramolecular and intermolec-ular reactions in the presence of certain transition metal catalysts molybdenum alkylidene and ruthenium carbene complexes, for example [50, 51]. The intramolecular reaction, called ring-closing olefin metathesis (RCM), affords cyclic compounds, while the intermolecular reaction, called acyclic diene metathesis (ADMET) polymerization, provides oligomers and polymers. Alteration of the dilution of the reaction mixture can to some extent control the intrinsic competition between RCM and ADMET. [Pg.328]

In the transition state, the torsional strain involving the partially formed bond between the nucleophile and the carbonyl group represents a substantial fraction of the total strain, even when the degree of bonding is low. Thus, in the case of acyclic carbonyl compounds, a staggered conformation is preferred in the transition state (Figure 6). [Pg.3]

The reactions of allylboronates 1 (R = H or CH3) may proceed either by way of transition state 3, in which the a-substituent X adopts an axial position, or 4 in which X occupies an equatorial position. These two pathways are easily distinguished since 3 provides 7 with a Z-olefin, whereas 4 provides 8 with an E-olefinic linkage. There is also a second fundamental stereochemical difference between these two transition states 7 and 8 are heterochirally related from reactions in which 1 is not racemic. That is, 7 and 8 arc enantiomers once the stereochemistry-associated with the double bond is destroyed. Thus, the selectivity for reaction by way of 3 in preference to 4, or via 6 in preference to 5 in reactions of a-subsliluted (Z)-2-butenylboronate 2, is an important factor that determines the suitability of these reagents for applications in enantioselective or acyclic diastereoselective synthesis. [Pg.320]

The diastereoselectivity of these reactions was initially explained in terms of acyclic, an-tiperiplanar transition states23, although a synclinal process has since been proposed on the basis of the stereoselectivity of Lewis acid induced intramolecular allylsilane- aldehyde cycliza-tions56. [Pg.347]

Ethyl (Z)-2-bromomethyl-2-heptenoate and aldehydes condense on reaction with chromium(II) chloride to furnish cw-3,4-disubstituted dihydro-3-methylene-2(3 //)-( uranones exclusively16, indicating that a (Z)-allylchromium complex might serve as reactive intermediate in the. mv-selec-tive addition step due to the bulky 2-substitucnt. Alternatively, an acyclic transition state for the reaction of the ( )-diastereomer, mediated by the Lewis acid dichloroaluminum hydride, has been discussed16. [Pg.436]

Extended acyclic transition states, such as G are also possible since, after the transmetalation, two additional equivalents of diethylaluminum remain that may serve as a Lewis acid26,44. [Pg.545]

The configurational course depends on the enolatc configuration and the metal ion which determines whether a cyclic (e.g., Zimmerman-Traxler type) or an acyclic transition state is traversed. At present the following transition state models have been proposed. [Pg.758]

The relative configuration of the diastcrcomers obtained on reaction of A-benzoyl a-methoxy-glycine methyl ester and various activated cyclohexenes is dependent on the cyclohexene substituent88. Whereas the boron trifiuoride catalyzed reaction with l-(4-morpholinyl)cyclohexene gives predominantly the awt/ -isomer, the. vrn-isomcr is predominantly formed in the titan-ium(IV) chloride catalyzed reaction with trimethylsilyloxycyclohexene. These results arc explained by a cyclic and an acyclic transition state, respectively. As expected, acetoxycyclohex-ene is less reactive. [Pg.820]

Formation of C — C bonds via cyclization of 71-nucleophiles with cyclic /V-acyliminium intermediates usually proceeds with still higher stereoselectivity than in the case of the acyclic congeners, owing to the stereochemical restrictions of the favorable transition state. [Pg.822]

The stereochemical outcome of these reactions has been rationalized as arising from a "tram-de-calyl -like or trans-fused chair-chair -like transition state. The extension of these reactions to acyclic enones has not been successful and only y-1,2-addition products are formed153. [Pg.926]

Although the 3 - and 5 -polyphosphate derivatives mentioned above exhibit exquisite inhibitory potency these compounds are not cell permeable. To take advantage ofthepotency of such derivatives for studies with intact cells and tissues, there are two possibilities. One is chemically to protect the phosphate groups from exonucleotidases that also allows the compound to transit the membrane intact. The other is to provide a precursor molecule that is cell permeable and is then metabolized into an inhibitor by intracellular enzymes. The general term for such a compound is prodrug nucleotide precursors are also referred to as pronucleotides. Families of protected monophosphate derivatives were synthesized, based on (3-L- and 3-D-2, 5 -dd-3 -AMP, 3-L-2, 3 -dd-5 -AMP, and the acyclic 9-substituted adenines, PMEA and PMPA. Protective substituents were (i) -( -pivaloyl-2-thioethyl) ... [Pg.36]

Two-shot techniques for acyclic diene metathesis, 435-445 for polyamides, 149-164 for polyimides, 287-300 for polyurethanes, 241-246 for transition metal coupling, 483-490 Anionic deactivation, 360 Anionic polymerization, 149, 174 of lactam, 177-178 Apolar solvents, 90 Aprotic polar solvents, 185, 338 Aprotic solvents, low-temperature condensation in, 302 Aqueous coating formulations, 235 Aqueous polyoxymethylene glycol, depolymerization of, 377 Aqueous systems, 206 Ardel, 20, 22... [Pg.577]

Wagner and co-workers explored the different selectivity of 1,3-dipolar cyclo additions of nitrones 140 and cinnamonitrile 139 leading to oxadia-zolines 141 derived from an exclusive CN attack instead of a C = C attack (Scheme 50). This behavior was observed when cinnamonitrile was coordinated to a transition metal like Ft or Pd [89]. A similar approach to platimun-promoted nitrile-nitrone cyclo additions was reported using cychc nitrones. In this case, the authors reported a higher stereoselectivity of cychc nitrones with respect to the acyclic nitrones, due to a rigid E conformation adopted by cyclic nitrones [90]. [Pg.239]

The chemical reactions through cyclic transition states are controlled by the symmetry of the frontier orbitals [11]. At the symmetrical (Cs) six-membered ring transition state of Diels-Alder reaction between butadiene and ethylene, the HOMO of butadiene and the LUMO of ethylene (Scheme 18) are antisymmetric with respect to the reflection in the mirror plane (Scheme 24). The symmetry allows the frontier orbitals to have the same signs of the overlap integrals between the p-or-bital components at both reaction sites. The simultaneous interactions at the both sites promotes the frontier orbital interaction more than the interaction at one site of an acyclic transition state. This is also the case with interaction between the HOMO of ethylene and the LUMO of butadiene. The Diels-Alder reactions occur through the cyclic transition states in a concerted and stereospecific manner with retention of configuration of the reactants. [Pg.17]

Malacria, M. (1996) Selective Preparation of Complex Polycyclic Molecules from Acyclic Precursors via Radical Mediated or Transition Metal-Catalyzed Cascade Reactions. Chemical Reviews, 96, 289-306. [Pg.187]

See other pages where Transition acyclic is mentioned: [Pg.67]    [Pg.135]    [Pg.630]    [Pg.71]    [Pg.83]    [Pg.98]    [Pg.100]    [Pg.254]    [Pg.13]    [Pg.140]    [Pg.272]    [Pg.5]    [Pg.374]    [Pg.442]    [Pg.141]    [Pg.148]    [Pg.454]    [Pg.96]    [Pg.291]    [Pg.433]    [Pg.461]    [Pg.617]    [Pg.280]    [Pg.180]    [Pg.45]    [Pg.82]    [Pg.70]    [Pg.181]    [Pg.64]    [Pg.19]    [Pg.222]    [Pg.1337]   
See also in sourсe #XX -- [ Pg.344 , Pg.346 ]

See also in sourсe #XX -- [ Pg.36 ]



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