2022
DOI: 10.1055/a-1968-2684
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Synthesis of (S)-Nyasol through a Copper-Catalyzed Propargylic Substitution

Abstract: (S)-Nyasol was selected as the target to demonstrate the efficiency of the copper-catalyzed substitution of secondary propargylic phosphates. The key phosphate (R)-TBDPSO(CH2)2CH(C≡CC6H4OTBS)-(OP(O)(OEt)2) was synthesized from TBDPSO(CH2)2CO2H in four steps. The substitution of the phosphate with TBSOC6H4MgBr in the presence of CuBr·Me2S as a catalyst in THF/DME proceeded with both stereo- and regioselectivity at the propargylic position. All the silyl groups in the propargylic product, TBDPSO(CH2)2CH(C≡CC6H4O… Show more

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Cited by 3 publications
(3 citation statements)
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“…We found the α selective substitution of phosphate 1 with ArMgBr by using CuCN and CuBr•Me 2 S to give acetylenes 2 (Scheme 1) and the γ regioselective reaction with Cu(acac) 2 [29]. The substitution was successfully applied for the synthesis of biologically active compounds [29][30][31][32]. With these results in mind, we focused our attention on aryl lithium compounds (ArLi), with the expectation that several preparations of ArLi would expand the scope of the reagents.…”
Section: Introductionmentioning
confidence: 99%
“…We found the α selective substitution of phosphate 1 with ArMgBr by using CuCN and CuBr•Me 2 S to give acetylenes 2 (Scheme 1) and the γ regioselective reaction with Cu(acac) 2 [29]. The substitution was successfully applied for the synthesis of biologically active compounds [29][30][31][32]. With these results in mind, we focused our attention on aryl lithium compounds (ArLi), with the expectation that several preparations of ArLi would expand the scope of the reagents.…”
Section: Introductionmentioning
confidence: 99%
“…This behaviour stands in contrast to that of rare earth metal triflates, which did not suffer from deactivation by pyridines. 3…”
mentioning
confidence: 99%
“…In this context, seminal contributions were made by Kobayashi and co-workers in 1991 through their systematic assessment of the reactivities, properties and applications of rare-earth metal trifluoromethylsulfonate (triflate) complexes. 3 Due to their high activity and easy recovery, these water-tolerant Lewis acidic complexes have since been employed as catalysts for a great number of various bond-forming reactions. Early examples include the use of Sc(OTf) 3 and Yb(OTf) 3 to catalyze Mukaiyama aldol condensations in H 2 O:THF mixtures, enabling the use of commercial aqueous aldehyde solutions, 4 5 as well as catalysis with water as sole reaction medium.…”
mentioning
confidence: 99%