Karin R. Claussen scite author profile

Karin R. Claussen

4Publications

36Citation Statements Received

77Citation Statements Given

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105

Affiliations

University of California, San Diego, The University of Texas at Austin, University of Montana

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Synthesis of oxygenated oleanolic and ursolic acid derivatives with anti-inflammatory properties

Nelson

Camelio

Claussen

et al. 2015

Bioorganic & Medicinal Chemistry Letters

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The scalable syntheses of four oxygenated triterpenes have been implemented to access substantial quantities of maslinic acid, 3-epi-maslinic acid, corosolic acid, and 3-epi-corosolic acid. Semi-syntheses proceed starting from the natural products oleanolic acid and ursolic acid. Proceeding over five steps, each of the four compounds can be synthesized ongram scale. Divergent diastereoselective reductions of α-hydroxy ketones provided access to the four targeted diol containing compounds from two precursors of the oleanane or ursane lineage. These compounds were subsequently evaluated for their ability to inhibit inflammatory gene expression in a mouse model of chemically induced skin inflammation. All compounds possessed the ability to inhibit the expression of one or more inflammatory genes induced by 12-O-tetradecanoylphorbol-13 acetate in mouse skin, however, three of the compounds, corosolic acid, 3-epi-corosolic acid and maslinic acid were more effective than the others. The availability of gram quantities will allow further testing of these compounds for potential anti-inflammatory activities as well as cancer chemopreventive activity.

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Dearomatization Reactions Using Phthaloyl Peroxide

et al. 2015

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A new oxidative dearomatization reaction has been developed using phthaloyl peroxide to chemoselectively install two oxygen-carbon bonds into aromatic precursors. The oxidation reaction proceeds only once; addition of superstoichiometric equivalents of phthaloyl peroxide does not react further with the newly generated 1,3-cyclohexadiene. The reaction has been challenged by the addition of different functional groups and shown to maintain chemoselectivity. Due to the broad reactivity with 1,2-methylenedioxybenzene derivatives, linear free energy correlations were determined and support a mechanism proceeding through diradicals analogous to arene-hydroxylation reactions using phthaloyl peroxide.

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A Protocol To Generate Phthaloyl Peroxide in Flow for the Hydroxylation of Arenes

et al. 2014

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A flow protocol for the generation of phthaloyl peroxide has been developed. This process directly yields phthaloyl peroxide in high purity (>95%) and can be used to bypass the need to isolate and recrystallize phthaloyl peroxide, improving upon earlier batch procedures. The flow protocol for the formation of phthaloyl peroxide can be combined with arene hydroxylation reactions and provides a method for the consumption of peroxide as it is generated to minimize the accumulation of large quantities of peroxide.

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ChemInform Abstract: A Protocol to Generate Phthaloyl Peroxide in Flow for the Hydroxylation of Arenes.

et al. 2015

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Karin R. Claussen

Synthesis of oxygenated oleanolic and ursolic acid derivatives with anti-inflammatory properties

Dearomatization Reactions Using Phthaloyl Peroxide

A Protocol To Generate Phthaloyl Peroxide in Flow for the Hydroxylation of Arenes

ChemInform Abstract: A Protocol to Generate Phthaloyl Peroxide in Flow for the Hydroxylation of Arenes.

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