2012
DOI: 10.1002/9780470559277.ch110252
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Selecting, Acquiring, and Using Small Molecule Libraries for High‐Throughput Screening

Abstract: The selection, acquisition, and use of high‐quality small molecule libraries for screening is an essential aspect of drug discovery and chemical biology programs. Screening libraries continue to evolve as researchers gain a greater appreciation of the suitability of small molecules for specific biological targets, processes, and environments. The decision surrounding the makeup of any given small molecule library is informed by a multitude of variables, and opinions vary on best practices. The fitness of any c… Show more

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Cited by 67 publications
(62 citation statements)
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“…Together, these differences support the existence of a “privileged chemical space” for RNA targeting and suggest several important future directions, including the explicit testing of these guiding principles against several RNA targets and the expansion of the properties analyzed. Methods including machine-based learning [24] and multi-parameter optimization [25] will be explored to design and create libraries [26] for efficient RNA-focused screening. We expect that our analysis will serve as a stepping stone to facilitate the discovery of chemical probes for RNAs and ultimately facilitate the discovery of small molecule drugs with novel modes of action against humankind’s most challenging diseases.…”
mentioning
confidence: 99%
“…Together, these differences support the existence of a “privileged chemical space” for RNA targeting and suggest several important future directions, including the explicit testing of these guiding principles against several RNA targets and the expansion of the properties analyzed. Methods including machine-based learning [24] and multi-parameter optimization [25] will be explored to design and create libraries [26] for efficient RNA-focused screening. We expect that our analysis will serve as a stepping stone to facilitate the discovery of chemical probes for RNAs and ultimately facilitate the discovery of small molecule drugs with novel modes of action against humankind’s most challenging diseases.…”
mentioning
confidence: 99%
“…Depending on the disease and target tissue, it might be possible to exclude certain chemistries and by using chemoinformatics filtering methods, the composition of the library might be limited to a set that is easier to handle [43]. A key concept is druglikeness, prediction of the properties of a molecule based on the physicochemical properties of approved drugs and filtering the compound library according to these parameters [44].…”
Section: Compounds Librariesmentioning
confidence: 99%
“…Chemists, including those not involved in drug discovery program, all around the globe develop hundreds of new compounds every day either to demonstrate new synthesis method or molecule. However, not all these compounds show the intended activity and the negative ones are shelved in the lab with no immediate use (Dandapani, Rosse, Southall, Salvino, & Thomas, ). We in this project take them to the next level of utility, where previously synthesized molecules kept in the lab are subjected to high through put analysis for antibiofilm activity.…”
Section: Introductionmentioning
confidence: 99%