2,2′-Bipyridine-Enabled Photocatalytic Radical [4+2] Cyclization of N‑Aryl-α-amino Acids for Synthesizing Polysubstituted Tetrahydroquinolines
journal contribution
posted on 2024-04-02, 14:38 authored by Ren-Xu Xiao, Ting Tian, Ting-You Yang, Ming-Xing Lan, Shuo Lv, Xue-Qing Mou, Yong-Zheng Chen, Bao-Dong CuiA facile photocatalytic radical [4+2] cyclization of N-aryl-α-amino acids with various alkenes to access
structurally
polysubstituted tetrahydroquinolines has been developed. Using a simple
bipyridine as a catalyst, different N-aryl-α-amino
acids could be utilized as the radical precursors to react with diverse
electrophilic alkenes, including exocyclic terminal alkenes, acyclic
terminal alkenes, and cycloalkenes, producing 10 types of nitrogen-containing
heterocyclic compounds fused in multiple frameworks in generally moderate
yields with good diastereoselectivities. Scale-up synthesis and transformations
of the products further demonstrated the synthetic application of
this protocol. Moreover, a decarboxylative radial pathway via a proton-coupled
electron transfer process for illustration of this [4+2] cyclization
was proposed on the basis of the control experiments. This process
is highlighted by a simple bipyridine photocatalysis, mild reaction
conditions, various N-aryl-α-amino acids and
alkene materials, and application for the modification of natural
products.
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synthesizing polysubstituted tetrahydroquinolinesproducing 10 typesmild reaction conditionsgenerally moderate yieldsfacile photocatalytic radicalenabled photocatalytic radicaldiverse electrophilic alkenesacyclic terminal alkenessimple bipyridine photocatalysisamino acids could2 ′- bipyridinesimple bipyridineamino acidsradical precursorsvarious alkenesn multiple frameworksgood diastereoselectivitiescontrol experimentsalkene materials>‑ aryl>- aryl
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