Compound Set Enrichment: A Novel Approach to Analysis of Primary HTS Data

Varin, Thibault; Gubler, Hanspeter; Parker, Christian N.; Zhang, Ji-Hu; Raman, Pichai; Ertl, Peter; Schuffenhauer, Ansgar

doi:10.1021/ci100203e

Cited by 54 publications

(64 citation statements)

References 31 publications

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“…Furthermore, our finding that noisy primary screening data can yield valuable information is consistent with other research in the field that successfully mine primary screening data while ignoring the data from confirmatory experiments 29. 9 For example, compound set enrichment (CSE) identifies statistically significant distributions of scaffolds in the primary screening data, enabling the detection of groups of active molecules that were initially missed 29. In a similar manner, local hit rate analysis (LHR) identifies clusters of molecules whose distribution is statistically significant in the primary screening data 9…”

Section: Discussionmentioning

confidence: 99%

Probabilistic Substructure Mining From Small‐Molecule Screens

Ranu

Calhoun

Singh

et al. 2011

Molecular Informatics

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Identifying the overrepresented substructures from a set of molecules with similar activity is a common task in chemical informatics. Existing substructure miners are deterministic, requiring the activity of all mined molecules to be known with high confidence. In contrast, we introduce pGraphSig, a probabilistic structure miner, which effectively mines structures from noisy data, where many molecules are labeled with their probability of being active. We benchmark pGraphSig on data from several small-molecule high throughput screens, finding that it can more effectively identify overrepresented structures than a deterministic structure miner.

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Section: Discussionmentioning

confidence: 99%

Probabilistic Substructure Mining From Small‐Molecule Screens

Ranu

Calhoun

Singh

et al. 2011

Molecular Informatics

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“…Such actives could possibly be rescued with post-HTS data-mining techniques aimed at identifying latent hits. 23,24 Both compounds 5 and 6 were annotated as weak TP at the 8.3 µM screening concentration but found as FN at all other doses (Fig. 4b, c).…”

Section: Case Iii: Determining Optimal Screening Concentration With Qmentioning

confidence: 96%

Application of Titration-Based Screening for the Rapid Pilot Testing of High-Throughput Assays

Zhang¹,

Zhao²,

Ardayfio³

et al. 2014

SLAS Discovery

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Pilot testing of an assay intended for high-throughput screening (HTS) with small compound sets is a necessary but often time-consuming step in the validation of an assay protocol. When the initial testing concentration is less than optimal, this can involve iterative testing at different concentrations to further evaluate the pilot outcome, which can be even more time-consuming. Quantitative HTS (qHTS) enables flexible and rapid collection of assay performance statistics, hits at different concentrations, and concentration-response curves in a single experiment. Here we describe the qHTS process for pilot testing in which eight-point concentration-response curves are produced using an interplate asymmetric dilution protocol in which the first four concentrations are used to represent the range of typical HTS screening concentrations and the last four concentrations are added for robust curve fitting to determine potency/efficacy values. We also describe how these data can be analyzed to predict the frequency of false-positives, false-negatives, hit rates, and confirmation rates for the HTS process as a function of screening concentration. By taking into account the compound pharmacology, this pilot-testing paradigm enables rapid assessment of the assay performance and choosing the optimal concentration for the large-scale HTS in one experiment.

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“…Further investigations of identified scaffolds with a higher propensity for 'activity cliffs' and 'selectivity cliffs' [119], which might also serve as particular interesting starting points for library design. A strategy to identify latent privileged scaffolds for a particular target from primary future science group screening data was proposed by Varin et al [120]. The approach identifies scaffolds generated by the scaffold tree that are statistically more active than the background according to the primary screening data.…”

Section: Data Mining For Promising Library Design Starting Pointsmentioning

confidence: 99%

Recent Trends and Observations in the Design of High-Quality Screening Collections

Renner¹,

Popov

Schuffenhauer

et al. 2011

Future Med. Chem.

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The design of a high-quality screening collection is of utmost importance for the early drug-discovery process and provides, in combination with high-quality assay systems, the foundation of future discoveries. Herein, we review recent trends and observations to successfully expand the access to bioactive chemical space, including the feedback from hit assessment interviews of high-throughput screening campaigns; recent successes with chemogenomics target family approaches, the identification of new relevant target/domain families, diversity-oriented synthesis and new emerging compound classes, and non-classical approaches, such as fragment-based screening and DNA-encoded chemical libraries. The role of in silico library design approaches are emphasized.

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Compound Set Enrichment: A Novel Approach to Analysis of Primary HTS Data

Cited by 54 publications

References 31 publications

Probabilistic Substructure Mining From Small‐Molecule Screens

Probabilistic Substructure Mining From Small‐Molecule Screens

Application of Titration-Based Screening for the Rapid Pilot Testing of High-Throughput Assays

Recent Trends and Observations in the Design of High-Quality Screening Collections

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