A Chemo-Enzymatic Route to Enantiomerically Pure Cyclic Tertiary Amines

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Abstract

Deracemization of racemic chiral tertiary amines has been achieved by combination of an enantioselective amine oxidase, obtained through directed evolution, and ammonia borane in a one-pot process.

Citing Articles

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This article has been cited by 14 ACS Journal articles (5 most recent appear below).

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  Catalytic Kinetic Resolution of Cyclic Secondary Amines

  Michael Binanzer, Sheng-Ying Hsieh, and Jeffrey W. Bode
  Journal of the American Chemical Society2011 133 (49), 19698-19701

  • Catalytic Kinetic Resolution of Cyclic Secondary Amines

    Michael Binanzer, Sheng-Ying Hsieh, and Jeffrey W. Bode
    Journal of the American Chemical Society2011 133 (49), 19698-19701

    The catalytic resolution of racemic cyclic amines has been achieved by an enantioselective amidation reaction featuring an achiral N-heterocyclic carbene catalyst and a new chiral hydroxamic acid cocatalyst working in concert. The reactions proceed at ...

    Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
• 

  Engineering a Biometallic Whole Cell Catalyst for Enantioselective Deracemization Reactions

  Joanne M. Foulkes, Kirk J. Malone, Victoria S. Coker, Nicholas J. Turner, and Jonathan R. Lloyd
  ACS Catalysis2011 1 (11), 1589-1594

  • Engineering a Biometallic Whole Cell Catalyst for Enantioselective Deracemization Reactions

    Joanne M. Foulkes, Kirk J. Malone, Victoria S. Coker, Nicholas J. Turner, and Jonathan R. Lloyd
    ACS Catalysis2011 1 (11), 1589-1594

    The ability of microbial cells to synthesize highly reactive nanoscale functional materials provides the basis for a novel synthetic biology tool for developing the next generation of multifunctional industrial biocatalysts. Here, we demonstrate that ...

    Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
• 

  Enantioselective Oxidation of C–O and C–N Bonds Using Oxidases

  Nicholas J. Turner
  Chemical Reviews2011 111 (7), 4073-4087

  • Enantioselective Oxidation of C–O and C–N Bonds Using Oxidases

    Nicholas J. Turner
    Chemical Reviews2011 111 (7), 4073-4087
    Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
• 

  Application of Designed Enzymes in Organic Synthesis

  Gernot A. Strohmeier, Harald Pichler, Oliver May, and Mandana Gruber-Khadjawi
  Chemical Reviews2011 111 (7), 4141-4164

  • Application of Designed Enzymes in Organic Synthesis

    Gernot A. Strohmeier, Harald Pichler, Oliver May, and Mandana Gruber-Khadjawi
    Chemical Reviews2011 111 (7), 4141-4164
    Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links
• 

  Efficient Production of Enantiomerically Pure Chiral Amines at Concentrations of 50 g/L Using Transaminases

  Matthew D. Truppo, J. David Rozzell and Nicholas J. Turner
  Organic Process Research & Development2010 14 (1), 234-237

  • Efficient Production of Enantiomerically Pure Chiral Amines at Concentrations of 50 g/L Using Transaminases

    Matthew D. Truppo, J. David Rozzell and Nicholas J. Turner
    Organic Process Research & Development2010 14 (1), 234-237

    Two methods for the efficient (50 g/L) production of optically pure amines from their corresponding ketones using transaminases have been developed. The first method utilizes an ion-exchange resin for in situ product removal allowing the reaction to be ...

    Abstract | Full Text HTML | Hi-Res PDF | PDF w/ Links

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