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Synthesis of Previously Inaccessible Borylated Heterocycle Motifs Using Novel Boron-Containing Amphoteric Molecules

Authors

  • Dr. Piera Trinchera,

    1. Davenport Research Laboratories, Department of Chemistry, University of Toronto, 80 St. George St., Toronto, ON, M5S 3H6 (Canada)
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  • Victoria B. Corless,

    1. Davenport Research Laboratories, Department of Chemistry, University of Toronto, 80 St. George St., Toronto, ON, M5S 3H6 (Canada)
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  • Prof. Dr. Andrei K. Yudin

    Corresponding author
    1. Davenport Research Laboratories, Department of Chemistry, University of Toronto, 80 St. George St., Toronto, ON, M5S 3H6 (Canada)

    • Davenport Research Laboratories, Department of Chemistry, University of Toronto, 80 St. George St., Toronto, ON, M5S 3H6 (Canada)

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  • We would like to thank the Natural Science and Engineering Research Council (NSERC) and the Canadian Institutes of Health Research (CIHR) for financial support.

Abstract

The photoredox-organocatalyzed α-alkylation of the α-MIDA boryl aldehyde with a range of α-bromoketones resulted in the first examples of boron-containing 1,4-dicarbonyl compounds. These novel trifunctional amphoteric molecules, which bear an additional, strategically placed electrophilic site compared to the starting amphoteric α-boryl aldehyde, were subjected to double-condensation reactions in the presence of various nucleophiles. As a result, a variety of synthetically challenging 3-borylated pyrroles and furans and 4-borylated pyridazines were generated. The borylated regioisomers accessible with this condensation-based strategy are distinctly different from those arising from the well-known lithiation and C[BOND]H activation processes.

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Article Information

DOI

10.1002/anie.201504271

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© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

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Keywords

  • amphoteric molecules;
  • borylated heterocycles;
  • condensation;
  • 1,4-dicarbonyl compounds;
  • MIDA boronates

Publication History

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  • Version of record online:
  • Manuscript Received:

Funded by

  • NSERC
  • CIHR

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  2. 2Thomas H. Allen, Dennis P. Curran, Relative Reactivity of Stable Ligated Boranes and a Borohydride Salt in Rhodium(II)-Catalyzed Boron–Hydrogen Insertion Reactions, The Journal of Organic Chemistry, 2016, 81, 5, 2094CrossRef
  3. 3Ciaran P. Seath, Kirsty L. Wilson, Angus Campbell, Jenna M. Mowat, Allan J. B. Watson, Synthesis of 2-BMIDA 6,5-bicyclic heterocycles by Cu(i)/Pd(0)/Cu(ii) cascade catalysis of 2-iodoaniline/phenols, Chem. Commun., 2016, 52, 56, 8703CrossRef
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  5. 5Meng-Yang Chang, Yu-Chieh Cheng, Synthesis of Substituted Tetralins and Benzosuberans via BF3·OEt2-Mediated Formal (4 + 2) and (5 + 2) Stereocontrolled Cycloaddition of 4-Alkenols with Veratrol, Organic Letters, 2016, 18, 3, 608CrossRef
  6. 6Jeffrey D. St. Denis, C. Frank Lee, Andrei K. Yudin, Access to Cyclic Amino Boronates via Rhodium-Catalyzed Functionalization of Alkyl MIDA Boronates, Organic Letters, 2015, 17, 23, 5764CrossRef
  7. 7Piera Trinchera, Victoria B. Corless, Andrei K. Yudin, ChemInform Abstract: Synthesis of Previously Inaccessible Borylated Heterocycle Motifs Using Novel Boron-Containing Amphoteric Molecules., ChemInform, 2015, 46, 48, noWiley Online Library