Young S. Lo scite author profile

A highly enantioselective and practical synthesis of the HIV-1 reverse transcriptase inhibitor efavirenz (1) is described. The synthesis proceeds in 62% overall yield in seven steps from 4-chloroaniline (6) to give efavirenz (1) in excellent chemical and optical purity. A novel, enantioselective addition of Li-cyclopropyl acetylide (4a) to p-methoxybenzyl-protected ketoaniline 3a mediated by (1R,2S)-N-pyrrolidinylnorephedrine lithium alkoxide (5a) establishes the stereogenic center in the target with a remarkable level of stereocontrol.

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Synthesis and physiochemical properties of sulfamate derivatives as topical antiglaucoma agents

Lo¹,

Nolan²,

Maren³

et al. 1992

J. Med. Chem.

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Several imidazolylphenyl sulfamate and (imidazolylphenoxy)alkyl sulfamate derivatives were synthesized and evaluated as topically active carbonic anhydrase inhibitors. Water solubility, pKa, carbonic anhydrase inhibition, and partition coefficient for the compounds were measured. Sulfamic acid 2-[4-(1H-imidazol-1-yl)phenoxy]ethyl ester monohydrochloride (16) has the best combination of properties and showed excellent topical activity in lowering the intraocular pressure in New Zealand white rabbits.

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Some new spiro penicillins

Sheehan¹,

Chacko²,

Lo³

et al. 1978

J. Org. Chem.

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Aptamer-Enabled Nanomaterials for Therapeutics, Drug Targeting and Imaging

Liu

Wang

et al. 2022

Cells

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A wide variety of nanomaterials have emerged in recent years with advantageous properties for a plethora of therapeutic and diagnostic applications. Such applications include drug delivery, imaging, anti-cancer therapy and radiotherapy. There is a critical need for further components which can facilitate therapeutic targeting, augment their physicochemical properties, or broaden their theranostic applications. Aptamers are single-stranded nucleic acids which have been selected or evolved to bind specifically to molecules, surfaces, or cells. Aptamers can also act as direct biologic therapeutics, or in imaging and diagnostics. There is a rich field of discovery at the interdisciplinary interface between nanomaterials and aptamer science that has significant potential across biomedicine. Herein, we review recent progress in aptamer-enabled materials and discuss pending challenges for their future biomedical application.

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Synthesis of 6-hydroxypenicillanates and 7-hydroxycephalosporanates

Sheehan¹,

Lo²,

Löliger³

et al. 1974

J. Org. Chem.

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Young S. Lo

Practical Asymmetric Synthesis of Efavirenz (DMP 266), an HIV-1 Reverse Transcriptase Inhibitor

Synthesis and physiochemical properties of sulfamate derivatives as topical antiglaucoma agents

Some new spiro penicillins

Aptamer-Enabled Nanomaterials for Therapeutics, Drug Targeting and Imaging

Synthesis of 6-hydroxypenicillanates and 7-hydroxycephalosporanates

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