Robert Sibley
Bayer
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Publication
Featured researches published by Robert Sibley.
Bioorganic & Medicinal Chemistry Letters | 1999
Jacques Dumas; David R. Brittelli; Jinshan Chen; Brian R. Dixon; Holia Hatoum-Mokdad; Gerhard Konig; Robert Sibley; James Witowsky; Stephen Wong
Cathepsin D, a lysosomal aspartyl protease, has been implicated in the pathology of Alzheimers disease as well as breast and ovarian cancer. A weakly active cathepsin D inhibitor was identified by high throughput screening. Subsequent optimization led to the discovery of a new class of small molecule inhibitors of this enzyme, culminating with the sulfonamide 13 (IC50 = 250 nM).
Bioorganic & Medicinal Chemistry Letters | 2000
Jacques Dumas; Holia Hatoum-Mokdad; Robert Sibley; Bernd Riedl; William J. Scott; Mary Katherine Monahan; Timothy B. Lowinger; Catherine Brennan; Reina Natero; Tiffany Turner; Jeffrey S Johnson; Robert W. Schoenleber; Ajay Bhargava; Scott Wilhelm; Timothy J Housley; Gerald Ranges; Alka Shrikhande
Inhibitors of the MAP kinase p38 are potentially useful for the treatment of arthritis and osteoporosis. Several 2,3-dichlorophenyl ureas were identified as small-molecule inhibitors of p38 by a combinatorial chemistry effort. Optimization for cellular potency led to the discovery of a new class of potent and selective p38 kinase inhibitors, exemplified by the 1-phenyl-5-pyrazolyl urea 7 (IC50 = 13 nM).
Bioorganic & Medicinal Chemistry Letters | 2000
Jacques Dumas; Robert Sibley; Bernd Riedl; Mary Katherine Monahan; Wendy Lee; Timothy B. Lowinger; Aniko Redman; Jeffrey S Johnson; Jill Kingery-Wood; William J. Scott; Roger A. Smith; Mark Bobko; Robert W. Schoenleber; Gerald Ranges; Timothy J Housley; Ajay Bhargava; Scott Wilhelm; Alka Shrikhande
The MAP kinase p38 has been implicated in cytokine signaling, and its inhibitors are potentially useful for the treatment of arthritis and osteoporosis. Novel small-molecule inhibitors of p38 kinase were derived from a combinatorial chemistry effort and exhibit activity in the nanomolar range. Very steep structure-activity relationships are observed within this class.
Archive | 2001
Bernd Riedl; Jacques Dumas; Uday Khire; Timothy B. Lowinger; William J. Scott; Roger A. Smith; Jill E. Wood; Mary-Katherine Monahan; Reina Natero; Joel Renick; Robert Sibley
Archive | 1998
Scott Miller; Martin Osterhout; Jacques Dumas; Uday Khire; Timothy B. Lowinger; William J. Scott; Roger A. Smith; Jill E. Wood; David E. Gunn; Holia Hatoum-Mokdad; Marell Rodriguez; Robert Sibley; Ming Wang; Tiffany Turner; Catherine Brennan
Archive | 1998
Jacques Dumas; Uday Khire; Timothy B. Lowinger; Holger Paulsen; Bernd Riedl; William J. Scott; Roger A. Smith; Jill E. Wood; Holia Hatoum-Mokdad; Jeffrey Johnson; Wendy Lee; Aniko Redman; Robert Sibley; Joel Renick
Archive | 2000
Bernd Riedl; Jacques Dumas; Uday Khire; Timothy B. Lowinger; William J. Scott; Roger A. Smith; Jill E. Wood; Mary-Katherine Monahan; Reina Natero; Joel Renick; Robert Sibley
Archive | 1998
Jacques Dumas; Uday Khire; Timothy B. Lowinger; Bernd Riedl; William J. Scott; Roger A. Smith; Jill E. Wood; Holia Hatoum-Mokdad; Jeffrey S Johnson; Aniko Redman; Robert Sibley
Organic Process Research & Development | 2002
Donald Bankston; Jacques Dumas; Reina Natero; Bernd Riedl; Mary-Katherine Monahan; Robert Sibley
Archive | 1998
Jacques Dumas; Uday Khire; Timothy B. Lowinger; Bernd Riedl; William J. Scott; Roger A. Smith; Jill E. Wood; Holia Hatoum-Mokdad; Jeffrey S Johnson; Aniko Redman; Robert Sibley
