Louis G. Mueller scite author profile

Oxazoles are rapidly assembled through a sequential deprotonation−condensation of Asmic, anisylsulfanylmethylisocyanide, with esters followed by sulfanyl−lithium exchange−trapping. Deprotonating Asmic affords a metalated isocyanide that efficiently traps esters to afford oxazoles bearing a versatile C-4 anisylsulfanyl substituent. Interchange of the anisylsulfanyl substituent is readily achieved through a first-in-class sulfur−lithium exchange−electrophilic trapping sequence whose versatility is illustrated in the three-step synthesis of the bioactive natural product streptochlorin.

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Access to Highly Functionalized Cyclopentenones via Diastereoselective Pauson–Khand Reaction of Siloxy-Tethered 1,7-Enynes

Gallagher

Tian

Torres-Herrera

et al. 2019

Org. Lett.

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A diastereoselective Co2(CO)8-mediated Pauson–Khand reaction (PKR) of siloxy-tethered 1,7-enynes for the synthesis of cyclopentaoxasilinones has been developed. This transformation can be performed on a multigram scale and is characterized by a broad substrate scope, functional group compatibility, and high chemo- and diastereoselectivity. Oxidation of the resulting cyclopentaoxasilinones delivers stereoenriched β-alkylated cyclopentenones, which are inaccessible by intermolecular PKRs. This research provides a practical solution to the challenges associated with the classical intermolecular PKR.

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One-step synthesis of imidazoles from Asmic (anisylsulfanylmethyl isocyanide)

Mueller¹,

Chao²,

Alwedi³

et al. 2021

Beilstein J. Org. Chem.

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Substituted imidazoles are readily prepared by condensing the versatile isocyanide Asmic, anisylsulfanylmethylisocyanide, with nitrogenous π-electrophiles. Deprotonating Asmic with lithium hexamethyldisilazide effectively generates a potent nucleophile that efficiently intercepts nitrile and imine electrophiles to afford imidazoles. In situ cyclization to the imidazole is promoted by the conjugate acid, hexamethyldisilazane, which facilitates the requisite series of proton transfers. The rapid formation of imidazoles and the interchange of the anisylsulfanyl for hydrogen with Raney nickel make the method a valuable route to mono- and disubstituted imidazoles.

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Access to Highly Functionalized Cyclopentenones via Diastereoselective Pauson Khand Reaction of Siloxy-Tethered 1,7-Enynes

Gallagher¹,

Tian²,

Torres-Herrera³

et al. 2019

Preprint

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A diastereoselective Co<sub>2</sub>(CO)<sub>8</sub>-mediated Pauson-Khand reaction (PKR) of siloxy-tethered 1,7-enynes for the synthesis of cyclopentaoxasilinones has been developed. This transformation can be performed on a multi-gram scale and is characterized by broad substrate scope, functional group compatibility, and high chemo- and diastereoselectivity. Oxidation of the resulting cyclopentaoxasilinones delivers stereoenriched β-alkylated cyclopentenones, which are inaccessible by intermolecular PKRs. This research provides a practical solution to the challenges associated with the classical intermolecular PKR.

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One-Pot Syntheses of Substituted Oxazoles and Imidazoles from the Isocyanide Asmic

2023

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Substituted oxazoles and imidazoles are synthesized in one pot from the isocyanide building block Asmic (anisylsulfanylmethyl isocyanide), an alkyl halide, and an acid chloride or nitrile, respectively. The modular assembly employs sequential deprotonation−alkylation and deprotonation−acylation or imination of Asmic, followed by an unusual carbon−sulfur bond cleavage to construct the azole. The strategy is robust, highly efficient, and affords C4−C5 disubstituted oxazoles or imidazoles in a single operation

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Louis G. Mueller

Oxazole Synthesis by Sequential Asmic-Ester Condensations and Sulfanyl–Lithium Exchange–Trapping

Access to Highly Functionalized Cyclopentenones via Diastereoselective Pauson–Khand Reaction of Siloxy-Tethered 1,7-Enynes

One-step synthesis of imidazoles from Asmic (anisylsulfanylmethyl isocyanide)

Access to Highly Functionalized Cyclopentenones via Diastereoselective Pauson Khand Reaction of Siloxy-Tethered 1,7-Enynes

One-Pot Syntheses of Substituted Oxazoles and Imidazoles from the Isocyanide Asmic

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