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Caged Proline in Photoinitiated Organocatalysis.

Charitha GurugeSaad Y RfaishChanel ByrdShukun YangAnthony K StarrettEric GuisbertNasri Nesnas
Published in: The Journal of organic chemistry (2019)
Organocatalysis is an emerging field, in which small metal-free organic structures catalyze a diversity of reactions with a remarkable stereoselectivity. The ability to selectively switch on such pathways upon demand has proven to be a valuable tool in biological systems. Light as a trigger provides the ultimate spatial and temporal control of activation. However, there have been limited examples of phototriggered catalytic systems. Herein, we describe the synthesis and application of a caged proline system that can initiate organocatalysis upon irradiation. The caged proline was generated using the highly efficient 4-carboxy-5,7-dinitroindolinyl (CDNI) photocleavable protecting group in a four-step synthesis. Advantages of this system include water solubility, biocompatibility, high quantum yield for catalyst release, and responsiveness to two-photon excitation. We showed the light-triggered catalysis of a crossed aldol reaction, a Mannich reaction, and a self-aldol condensation reaction. We also demonstrated light-initiated catalysis, leading to the formation of a biocide in situ, which resulted in the growth inhibition of E. coli, with as little as 3 min of irradiation. This technique can be broadly applied to other systems, by which the formation of active forms of drugs can be catalytically assembled remotely via two-photon irradiation.
Keyphrases
  • highly efficient
  • escherichia coli
  • radiation induced
  • monte carlo
  • living cells
  • molecular dynamics
  • energy transfer
  • ionic liquid
  • room temperature
  • gold nanoparticles
  • tissue engineering
  • drug induced