Erin M. Sommers scite author profile

Hydroxyurea represents an approved treatment for sickle cell anemia and a number of cancers. Chemiluminescence and electron paramagnetic resonance spectroscopic studies show horseradish peroxidase catalyzes the formation of nitric oxide from hydroxyurea in the presence of hydrogen peroxide. Gas chromatographic headspace analysis and infrared spectroscopy also reveal the production of nitrous oxide in this reaction, which provides evidence for nitroxyl, the one-electron reduced form of nitric oxide. These reactions also generate carbon dioxide, ammonia, nitrite, and nitrate. None of these products form within 1 h in the absence of hydrogen peroxide or horseradish peroxidase. Electron paramagnetic resonance spectroscopy and trapping studies show the intermediacy of a nitroxide radical and a C-nitroso species during this reaction. Absorption spectroscopy indicates that both compounds I and II of horseradish peroxidase act as one-electron oxidants of hydroxyurea. Nitroxyl, generated from Angeli's salt, reacts with ferric horseradish peroxidase to produce a ferrous horseradish peroxidase-nitric oxide complex. Electron paramagnetic resonance experiments with a nitric oxide specific trap reveal that horseradish peroxidase is capable of oxidizing nitroxyl to nitric oxide. A mechanistic model that includes the observed nitroxide radical and C-nitroso compound intermediates has been forwarded to explain the observed product distribution. These studies suggest that direct nitric oxide producing reactions of hydroxyurea and peroxidases may contribute to the overall pharmacological properties of this drug.

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Palladium(0)-Catalyzed Synthesis of Chiral Ene-allenes Using Alkenyl Trifluoroborates

Molander

Sommers

Baker

2006

J. Org. Chem.

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Enantioenriched allenes serve as chiral transfer reagents, making them attractive synthetic targets. Herein, the synthesis of enantioenriched allenes utilizing a Pd(0)-catalyzed cross-coupling reaction of propargylic carbonates and phosphates with alkenyl trifluoroborates is reported. Di-, tri-, and tetrasubstituted allenes were synthesized in moderate to high optical yields. Several racemic allenes possessing various functional groups were also synthesized.

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Chromium(III) catalyzed synthesis of allenes from propargyl derivatives via a carbometalation–elimination sequence

Molander¹,

Sommers²

2005

Tetrahedron Letters

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Palladium(0)‐Catalyzed Synthesis of Chiral Ene‐allenes Using Alkenyl Trifluoroborates.

2006

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Enantioenriched allenes serve as chiral transfer reagents, making them attractive synthetic targets. Herein the synthesis of enantioenriched allenes utilizing a Pd(0)-catalyzed cross coupling reaction of propargylic carbonates and -phosphates with alkenyl trifluoroborates is reported. Di-, tri-, and tetrasubstituted allenes were synthesized in moderate to high optical yields. Several racemic allenes possessing various functional groups were also synthesized.

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Chromium(III)‐Catalyzed Synthesis of Allenes from Propargyl Derivatives via a Carbometalation—Elimination Sequence.

Molander

Sommers

2005

ChemInform

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Allenes P 0025Chromium (III)-Catalyzed Synthesis of Allenes from Propargyl Derivatives via a Carbometalation-Elimination Sequence. -The successful synthesis of allenes from propargylic substrates, especially propargylic Tbs-ethers is achieved in modest yields. The reaction proceeds through a syn-carbometalation/syn-elimination sequence. -(MOLANDER*, G. A.; SOMMERS, E. M.; Tetrahedron Lett. 46 (2005) 13, 2345-2349; Dep. Chem., Univ. Pa., Philadelphia, PA 19104, USA; Eng.) -Mais 29-071

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Erin M. Sommers

Horseradish Peroxidase Catalyzed Nitric Oxide Formation from Hydroxyurea

Palladium(0)-Catalyzed Synthesis of Chiral Ene-allenes Using Alkenyl Trifluoroborates

Chromium(III) catalyzed synthesis of allenes from propargyl derivatives via a carbometalation–elimination sequence

Palladium(0)‐Catalyzed Synthesis of Chiral Ene‐allenes Using Alkenyl Trifluoroborates.

Chromium(III)‐Catalyzed Synthesis of Allenes from Propargyl Derivatives via a Carbometalation—Elimination Sequence.

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