Guo-Jie Ho
Merck & Co.
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Guo-Jie Ho.
Tetrahedron Letters | 1999
John Y. L. Chung; Guo-Jie Ho; Michel Chartrain; Chris Roberge; Dalian Zhao; John Leazer; Roger N. Farr; Michael A. Robbins; Kateeta Emerson; David J. Mathre; James M. McNamara; David L. Hughes; Edward J. J. Grabowski; Paul J. Reider
Abstract A chemoenzymatic synthesis of β 3 agonist 1 suitable for large scale preparation is described. The key chiral 3-pyridylethanolamine intermediate ( R )- 7 was prepared via an improved Neber rearrangement and a yeast-mediated asymmetric reduction. The tetrazolone fragment of the molecule was constructed via a dipolar cycloaddition between 1-(cyclopentyl)-3-propylazide and p -chlorosulfonyl phenylisocyanate. Sulfonamide coupling of these two intermediates under Shotten-Baumann conditions, followed by a borane reduction of the amide afforded 1 in 20–32% overall yield from 3-acetylpyridine.
Synthetic Communications | 2004
Brenda Pipik; Guo-Jie Ho; J. Michael Williams; David A. Conlon
Abstract An efficient and high‐yielding one‐pot synthesis of 1,2,4‐oxadiazoles from carboxylic acids and amidoximes is described. Activation of the carboxylic acid using hydroxybenzotriazole (HOBt) and EDC/HCl followed by reaction with an amidoxime generates an oxime ester. Without isolation, the oxime ester is dehydrated to give the oxadiazole ring.
Synthetic Communications | 2002
John Y. L. Chung; Guo-Jie Ho
ABSTRACT An improved preparative four-step synthesis to isoquinuclidine tosylate salt 4 has been demonstrated in 70% overall yield from p-aminobenzoic acid (PABA) 1. Hydrogenation of PABA 1 affords 4-aminocyclohexane carboxylic acid 2 as an 80 : 20 mixture of cis- and trans-isomers. Heating the mixture at 250°C effected epimerization and cyclization to provide the bicyclic lactam 3. Subsequent Red-Al reduction and treatment with tosic acid furnished the desired bicyclic amine, tosylate salt 4.
Journal of Organic Chemistry | 1995
Guo-Jie Ho; David J. Mathre
Journal of Organic Chemistry | 2002
Matthew M. Zhao; James M. McNamara; Guo-Jie Ho; Khateeta M. Emerson; Zhiguo J. Song; David M. Tschaen; Karel M. J. Brands; Ulf-H. Dolling; Edward J. J. Grabowski; Paul J. Reider; Ian F. Cottrell; Michael S. Ashwood; Brian Bishop
Tetrahedron-asymmetry | 2003
Roger N. Farr; Ramon J Alabaster; John Y. L. Chung; Bridgette Craig; John S Edwards; Andrew W. Gibson; Guo-Jie Ho; Guy R. Humphrey; Simon A Johnson; Edward J. J. Grabowski
Journal of Organic Chemistry | 1995
Guo-Jie Ho; Khateeta M. Emerson; David J. Mathre; Richard F. Shuman; Edward J. J. Grabowski
Journal of Organic Chemistry | 1998
Nobuyoshi Yasuda; Mark A. Huffman; Guo-Jie Ho; Lyndon C. Xavier; Chunhua Yang; Khateeta M. Emerson; Fuh-Rong Tsay; Yulan Li; Michael H. Kress; Dale L. Rieger; Sandor Karady; Paul Sohar; Newton L. Abramson; Ann E Decamp; David J. Mathre; Alan W. Douglas; Ulf-H. Dolling; Edward J. J. Grabowski; Paul J. Reider
Organic Process Research & Development | 2006
David A. Conlon; † Antoinette Drahus-Paone; Guo-Jie Ho; Brenda Pipik; Roy Helmy; James M. McNamara; Yao-Jun Shi; J. Michael Williams; Dwight Macdonald; Denis Deschenes; Michel Gallant; Anthony Mastracchio; and Bruno Roy; John Scheigetz
Journal of Organic Chemistry | 1996
John Y. L. Chung; David L. Hughes; Dalian Zhao; Zhiguo Song; David J. Mathre; Guo-Jie Ho; James M. McNamara; Alan W. Douglas; Robert A. Reamer; Fuh-Rong Tsay; Richard J. Varsolona; James A Mccauley; and Edward J. J. Grabowski; Paul J. Reider
