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Absolute and relative facial selectivities in organocatalytic asymmetric chlorocyclization reactions.


ABSTRACT: Though (DHQD)2PHAL-catalyzed chlorocyclizations of 1,1-disubstituted olefins show useful (and in some cases, reversible) asymmetric induction, stereochemically complete descriptions of these alkene additions have remained largely unknown. Herein, based on a combination of NMR, derivative, isotope labeling, and computational studies, we present detailed stereochemical analyses of chlorocyclizations of nucleophile-tethered 1,1-disubstituted styryl systems. The selectivities of the two asymmetric bond-forming processes, namely electrophilic chlorine attack and nucleophilic ring closure, are thus mapped out independently. Under the established optimal conditions, four related chlorocyclizations were subjected to this analysis. All showed a strong preference for Cl+ delivery from the same face of the alkene. However, depending on reaction conditions and substrate identity (carboxylic acid, amide or carbamate), the internal nucleophiles may close with a strong net preference for either syn or anti addition relative to the Cl atom. Studies of both uncatalyzed and (DHQD)2PHAL-catalyzed processes place new boundary conditions on the role of the catalyst in these reactions.

SUBMITTER: Salehi Marzijarani N 

PROVIDER: S-EPMC5896375 | biostudies-literature | 2018 Mar

REPOSITORIES: biostudies-literature

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Absolute and relative facial selectivities in organocatalytic asymmetric chlorocyclization reactions.

Salehi Marzijarani Nastaran N   Yousefi Roozbeh R   Jaganathan Arvind A   Ashtekar Kumar Dilip KD   Jackson James E JE   Borhan Babak B  

Chemical science 20180102 11


Though (DHQD)<sub>2</sub>PHAL-catalyzed chlorocyclizations of 1,1-disubstituted olefins show useful (and in some cases, reversible) asymmetric induction, stereochemically complete descriptions of these alkene additions have remained largely unknown. Herein, based on a combination of NMR, derivative, isotope labeling, and computational studies, we present detailed stereochemical analyses of chlorocyclizations of nucleophile-tethered 1,1-disubstituted styryl systems. The selectivities of the two a  ...[more]

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