Nicole M. Hewlett scite author profile

The 1 H and 13 C NMR chemical shifts of 48 industrially preferred solvents in six commonly used deuterated NMR solvents (CDCl 3 , acetone-d 6 , DMSO-d 6 , acetonitrile-d 3 , methanol-d 4 , and D 2 O) are reported. This work supplements the compilation of NMR data published by Gottlieb, Kotlyar, and Nudelman (J. Org. Chem. 1997, 62, 7512) by providing spectral parameters for solvents that were not commonly utilized at the time of their original report. Data are specifically included for solvents, such as 2-Me-THF, n-heptane, and iso-propyl acetate, which are being used more frequently as the chemical industry aims to adopt greener, safer, and more sustainable solvents. These spectral tables simplify the identification of these solvents as impurities in NMR spectra following their use in synthesis and workup protocols.

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Palau’amine and Related Oroidin Alkaloids Dibromophakellin and Dibromophakellstatin Inhibit the Human 20S Proteasome

Lansdell

Hewlett

Skoumbourdis

et al. 2012

J. Nat. Prod.

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We report herein that the oroidin-derived alkaloids, palau’amine (1), dibromophakellin (2) and dibromophakellstatin (3) inhibit the proteolytic activity of the human 20S proteasome as well as the i20S immunoproteasome catalytic core. Palau’amine is found to prevent the degradation of ubiquitinylated proteins, including IκBα, in cell culture, which may be indicative of the potential mechanism by which these agents exhibit their exciting cytotoxic and immunosuppressive properties.

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Indolo‐Phakellins as β5‐Specific Noncovalent Proteasome Inhibitors

et al. 2015

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The proteasome represents an invaluable target for the treatment of cancer and autoimmune disorders. The application of proteasome inhibitors, however, remains limited to blood cancers because their reactive headgroups and peptidic scaffolds convey unfavorable pharmacodynamic properties. Thus, the discovery of more drug-like lead structures is indispensable. In this study, we present the first structure of the proteasome in complex with an indolo-phakellin that exhibits a unique noncovalent binding mode unparalleled by all hitherto reported inhibitors. The natural product inspired pentacyclic alkaloid binds solely and specificially into the spacious S3 subpocket of the proteasomal β5 substrate binding channel, gaining major stabilization through halogen bonding with the protein backbone. The presented compound provides an ideal scaffold for the structure-based design of subunit-specific nonpeptidic proteasome-blockers.

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Total Synthesis of the Natural Product (±)-Dibromophakellin and Analogues

Hewlett

Tepe

2011

Org. Lett.

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Reactivity of Oxazol-5-(4H)-ones and Their Application toward Natural Product Synthesis

Hewlett¹,

Hupp²,

Tepe³

2009

Synthesis

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Nicole M. Hewlett

NMR Chemical Shifts of Trace Impurities: Industrially Preferred Solvents Used in Process and Green Chemistry

Palau’amine and Related Oroidin Alkaloids Dibromophakellin and Dibromophakellstatin Inhibit the Human 20S Proteasome

Indolo‐Phakellins as β5‐Specific Noncovalent Proteasome Inhibitors

Total Synthesis of the Natural Product (±)-Dibromophakellin and Analogues

Reactivity of Oxazol-5-(4H)-ones and Their Application toward Natural Product Synthesis

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