Vince Lynch scite author profile

Suzuki coupling of 7 to 8 gave the biphenyl derivative 9. Reaction of 9 with ethyl vinyl ether/bromine/base gave 10, which on treatment with CsF/DMF at 130 degrees C resulted in the cross-conjugated 2,5-cyclohexadienone 6. Acid hydrolysis of 6 gave 11, which was reductively aminated to give (+/-)-narwedine 2. Since 2 has been converted into (-)-galanthamine 1 in two steps, this synthesis proceeds in eight steps with an overall yield of 63%. Also treatment of the cross-conjugated cyclohexadienone 6 with nitromethane/base gave 12, which was reduced to provide 13. Reduction of the nitro group in 13 to an amine, followed by reductive amination under acidic conditions, arrives at the codeine skeleton 15. Elaboration of 15 into (+/-)-codeine proceeds via the previously unknown alpha-epoxide derivative 18. This is the shortest synthesis of codeine (13 steps, 20% overall yield) and, for the first time, allows access to codeine without having to reduce codeinone.

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Synthesis of the Kopsia alkaloids (±)-pauciflorine B, (±)-lahadinine B, (±)-kopsidasine, (±)-kopsidasine-N-oxide, (±)-kopsijasminilam and (±)-11-methoxykopsilongine

Magnus

Gazzard

Hobson

et al. 2002

Tetrahedron

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Quinobis(imidazolylidene): Synthesis and Study of an Electron‐Configurable Bis(N‐Heterocyclic Carbene) and Its Bimetallic Complexes

Tennyson

Ono

Hudnall

et al. 2009

Chemistry A European J

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Reaction of bromanil with N,N'-dimesitylformamidine followed by deprotonation with NaN(SiMe(3))(2) afforded 1,1',3,3'-tetramesitylquinobis(imidazolylidene) (1), a bis(N-heterocyclic carbene) (NHC) with two NHC moieties connected by a redox active p-quinone residue, in 72 % yield of isolated compound. Bimetallic complexes of 1 were prepared by coupling to FcN(3) (2) or FcNCS (3; Fc=ferrocenyl) or coordination to [M(cod)Cl] (4 a or 4 b, where M=Rh or Ir, respectively; cod=1,5-cyclooctadiene). Treatment of 4 a and 4 b with excess CO(g) afforded the corresponding [M(CO)(2)Cl] complexes 5 a and 5 b, respectively. Analysis of 2-5 by NMR spectroscopy and X-ray diffraction indicated that the electron-deficient quinone did not significantly affect the inherent spectral properties or coordination chemistry of the flanking imidazolylidene units, as compared to analogous NHCs. Infrared spectroscopy and cyclic voltammetry revealed that decreasing the electron density at ML(n) afforded an increase in the stretching energy and a decrease in the reduction potential of the quinone, indicative of metal-quinone electronic interaction. Differential pulse voltammetry and chronoamperometry of the metal-centered oxidations in 2-4 revealed two single, one-electron peaks. Thus, the metal atoms bound to 1 are oxidized at indistinguishable potentials and do not appear electronically coupled. However, the metal-quinone interaction was used to increase the electron density at coordinated metal atoms. Infrared spectroelectrochemistry revealed that the average nu(CO) values for 5 a and 5 b decreased by 14 and 15 cm(-1), respectively, upon reduction of the quinone embedded within 1. These shifts correspond to 10 and 12 cm(-1) decreases in the Tolman electronic parameter of this ditopic ligand.

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Synthesis and near infrared luminescence of a tetrametallic Zn2Yb2 architecture from a trinuclear Zn3L2 Schiff base complex

et al. 2005

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An Expedient Formal Total Synthesis of (−)-Diazonamide A via a Powerful, Stereoselective O-Aryl to C-Aryl Migration To Form the C10 Quaternary Center

et al. 2007

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During the course of studies on the synthesis of diazonamide A 1 an unusual O-aryl into C-aryl rearrangement was discovered that allows partial control of the absolute stereochemistry of the C-10 quaternary stereogenic center. Treatment of 30 with TBAF/THF gave the O-tyrosine ethers 31 and 32 (1:1), which on heating each separately in chloroform at reflux rearranged to 33 and 34 in ratios of (84:16) and (56:44) respectively. This corresponds to a 70% yield of the correct C-10 stereoisomer 33 and a 30% yield of the wrong C-10 stereoisomer 34. Attempts to convert 34 into 33 by ipso-protonation and equilibriation were unsuccessful. Confirmation of the stereochemical outcome of the rearrangement was obtained by converting 33 into 37, an advanced intermediate in the first synthesis of diazonamide A by Nicolaou et al. It was also found that the success of the above rearrangement is sensitive to the protecting group on both the tryptophan nitrogen atom and the tyrosine nitrogen atom.

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Vince Lynch

Concise Syntheses of (−)-Galanthamine and (±)-Codeine via Intramolecular Alkylation of a Phenol Derivative

Synthesis of the Kopsia alkaloids (±)-pauciflorine B, (±)-lahadinine B, (±)-kopsidasine, (±)-kopsidasine-N-oxide, (±)-kopsijasminilam and (±)-11-methoxykopsilongine

Quinobis(imidazolylidene): Synthesis and Study of an Electron‐Configurable Bis(N‐Heterocyclic Carbene) and Its Bimetallic Complexes

Synthesis and near infrared luminescence of a tetrametallic Zn2Yb2 architecture from a trinuclear Zn3L2 Schiff base complex

An Expedient Formal Total Synthesis of (−)-Diazonamide A via a Powerful, Stereoselective O-Aryl to C-Aryl Migration To Form the C10 Quaternary Center

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