Reactive rotamer effect

The application of this methodology to suitably functionalized alkynes has allowed a direct and easy synthesis of important heterocyclic compounds starting from readily available substrates. New /1-lactone [100,101] and /3-lactam [102] derivatives were synthesized in good yields from a,a-disubstituted propynyl alcohols and amines, respectively (Eq. 38), through the mechanistic route shown in Scheme 18, path a. The substitution a to the triple bond was a necessary requisite for cychzation to occur, owing to the reactive rotamer effect [301]. 

Jung, M. E. Gervay, J. gem-Dialkyl effect in the intramolecular Diels-Alder reaction of 2-fur-furyl methyl fumarates the reactive rotamer effect, enthalpic basis for acceleration, and evi-... 

Figure 2.19 Thorpe-Ingold versus reactive rotamer effects.

A facilitated transition hypothesis has been suggested to replace the reactive rotamer hypothesis as an explanation for the gem-dialky I effect in intramolecular cyclization reactions.59... 

The foregoing examples of differential reactivities of rotamers may be summarized by saying that the reactivity is controlled by the steric factor. The difference in the reactivities of rotamers of 9-(2-bromomethyl-6-methyl-phenyl)fluorene (56) in SN2 type reactions falls in the same category (176). However, the substituent effect is not limited to a steric one there can be conformation-dependent electronic effects of substituents as well. A pertinent example is found in the reactivity of the bromomethyl compound (56) when the rotamers are heated in a trifluoroacetic acid solution (Scheme 10). The ap form gives rise to a cyclized product, whereas the sp form remains intact (176). The former must be reacting by participation of the it system of the fluorene ring. 

In conclusion, the chemistry of atropisomers holds a promising future in providing reactivity data for rotamers and information on molecular interactions that are otherwise not detectable. It is especially promising in that a variety of functional groups can be introduced into the 9-arylfluorene and 9-substituted triptycene systems and thus the electronic as well as steric effects of substituents can be examined. In the past, steric effects on reactivity were almost die sole... 

The structure of diphosphallenic radical cations, generated from the allene ArP=C=PAr by electrochemical oxidation, has been examined using EPR spectroscopy. Ab initio calculations including correlation effects at the MP2 and MCSCF levels have determined that two rotamers exist compatible with Jahn-Teller distortion of the allene.146 Anodically generated radical cations of alkyl phosphites [(RO P] and silylphosphites [(RO)2POSiMe3] reacted with alkenes by initial attack at the C=C bond followed by electron transfer, deprotonation, and elimination of an alkyl or trimethylsilyl cation to form identical alkyl phosphate adducts.147 The electron ionization-induced McLafferty rearrangement of n-hexylphosphine afford the a-distonic radical cation CTEPH, the distinct reactivity of which suggests there is no... 

The C=N bond of simple imines possesses modest reactivity toward intermolecular radical additions, so such acceptors have rarely been exploited. To enhance their reactivity toward nucleophilic radicals, electron-withdrawing groups at the imine carbon have been effective, as demonstrated by Bertrand in radical additions to a-iminoesters prepared from chiral amines [25]. Also, more reactive oxime ethers have been exploited extensively for radical addition, mainly through the longstanding efforts of Naito [26]. In most cases, stereocontrol has been imparted through the substituents on the imino carbon chiral O-substituents on oximes for stereocontrol were ineffective, presumably due to poor rotamer control [27, 28]. 

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