Sarah Theiss scite author profile

Bioinformatic analysis can not only accelerate drug target identification and drug candidate screening and refinement, but also facilitate characterization of side effects and predict drug resistance. High-throughput data such as genomic, epigenetic, genome architecture, cistromic, transcriptomic, proteomic, and ribosome profiling data have all made significant contribution to mechanismbased drug discovery and drug repurposing. Accumulation of protein and RNA structures, as well as development of homology modeling and protein structure simulation, coupled with large structure databases of small molecules and metabolites, paved the way for more realistic protein-ligand docking experiments and more informative virtual screening. I present the conceptual framework that drives the collection of these high-throughput data, summarize the utility and potential of mining these data in drug discovery, outline a few inherent limitations in data and software mining these data, point out news ways to refine analysis of these diverse types of data, and highlight commonly used software and databases relevant to drug discovery.

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Law Without Lawyers

Theiss¹

2019

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The role of context effects in acupuncture practice: a qualitative study based on semi-structured interviews with acupuncturists in private practice.

Theiss

Moir

2021

European Journal of Integrative Medicine

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Grinling Gibbons and the art of carving

Theiss¹

1999

Choice Reviews Online

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Sarah Theiss

Terranes in the Circum-Atlantic Paleozoic Orogens

Bioinformatics and Drug Discovery

Law Without Lawyers

The role of context effects in acupuncture practice: a qualitative study based on semi-structured interviews with acupuncturists in private practice.

Grinling Gibbons and the art of carving

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