Combined chemoinformatics approach to solvent library design using clusterSim and multidimensional scaling

Andrea Johnston; Rajni Bhardwaj-Miglani; Rajesh Gurung; Antony D. Vassileiou; Alastair J. Florence; Blair F. Johnston

doi:10.1021/acs.jcim.7b00038

Combined chemoinformatics approach to solvent library design using clusterSim and multidimensional scaling

Andrea Johnston, Rajni Bhardwaj-Miglani, Rajesh Gurung, Antony D. Vassileiou, Alastair J. Florence, Blair F. Johnston^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Reported here is a rational approach for the selection of solvents intended for use in physical form screening based on a novel chemoinformatics analysis of solvent properties. A comprehensive assessment of eight clustering methods was carried out on a series of 94 solvents described by calculated molecular descriptors using the clusterSim package in R. The effectiveness of clustering methods was evaluated using a range of statistical measures as well as increasing efficiency of solid form discovery using a cluster-based solvent selection approach. Multidimensional scaling was used to illustrate cluster analysis on a two-dimensional solvent map. The map presented here is a valuable tool to aid efficient solvent selection in physical form screens. This tool is equally applicable to any scientific area which requires a solubility dependent decision on solvent choice.

Original language	English
Pages (from-to)	1807-1815
Number of pages	9
Journal	Journal of Chemical Information and Modeling
Volume	57
Issue number	8
Early online date	30 Jun 2017
DOIs	https://doi.org/10.1021/acs.jcim.7b00038
Publication status	Published - 28 Aug 2017

Keywords

solvent library
chemoinfomatic analysis
cluster based solvents
solvent map

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10.1021/acs.jcim.7b00038

Cite this

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title = "Combined chemoinformatics approach to solvent library design using clusterSim and multidimensional scaling",

abstract = "Reported here is a rational approach for the selection of solvents intended for use in physical form screening based on a novel chemoinformatics analysis of solvent properties. A comprehensive assessment of eight clustering methods was carried out on a series of 94 solvents described by calculated molecular descriptors using the clusterSim package in R. The effectiveness of clustering methods was evaluated using a range of statistical measures as well as increasing efficiency of solid form discovery using a cluster-based solvent selection approach. Multidimensional scaling was used to illustrate cluster analysis on a two-dimensional solvent map. The map presented here is a valuable tool to aid efficient solvent selection in physical form screens. This tool is equally applicable to any scientific area which requires a solubility dependent decision on solvent choice.",

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AU - Johnston, Andrea

AU - Bhardwaj-Miglani, Rajni

AU - Gurung, Rajesh

AU - Vassileiou, Antony D.

AU - Florence, Alastair J.

AU - Johnston, Blair F.

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AB - Reported here is a rational approach for the selection of solvents intended for use in physical form screening based on a novel chemoinformatics analysis of solvent properties. A comprehensive assessment of eight clustering methods was carried out on a series of 94 solvents described by calculated molecular descriptors using the clusterSim package in R. The effectiveness of clustering methods was evaluated using a range of statistical measures as well as increasing efficiency of solid form discovery using a cluster-based solvent selection approach. Multidimensional scaling was used to illustrate cluster analysis on a two-dimensional solvent map. The map presented here is a valuable tool to aid efficient solvent selection in physical form screens. This tool is equally applicable to any scientific area which requires a solubility dependent decision on solvent choice.

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KW - chemoinfomatic analysis

KW - cluster based solvents

KW - solvent map

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Combined chemoinformatics approach to solvent library design using clusterSim and multidimensional scaling

Abstract

Keywords

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Doctoral Training Centre In Continuous Manufacturing And Crystallisation / RS4912

CMAC - EPSRC Centre for Innovative Manufacturing for Continuous Manufacturing and Crystallisation

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Combined chemoinformatics approach to solvent library design using clusterSim and multidimensional scaling

Abstract

Keywords

Access to Document

Other files and links

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Projects

Doctoral Training Centre In Continuous Manufacturing And Crystallisation / RS4912

CMAC - EPSRC Centre for Innovative Manufacturing for Continuous Manufacturing and Crystallisation

Cite this