Andrew S. T. Lim scite author profile

Andrew S. T. Lim

2Publications

46Citation Statements Received

124Citation Statements Given

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122

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Wellcome Centre for Anti-Infectives Research, University of Dundee

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Fragment library design, synthesis and expansion: nurturing a synthesis and training platform

Ray

Kiczun

Huggett

et al. 2017

Drug Discovery Today

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The availability of suitable diverse fragment- and lead-oriented screening compounds is key for the identification of suitable chemical starting points for drug discovery programs. The physicochemical properties of molecules are crucial in determining the success of small molecules in clinical development, yet reports suggest that pharmaceutical and academic sectors often produce molecules with poor drug-like properties. We present a platform to design novel, high quality and diverse fragment- and lead-oriented libraries with appropriate physicochemical properties in a cost-efficient manner. This approach has the potential to assist the way libraries are constructed by significantly addressing the historical uneven exploration of chemical space for drug discovery. Additionally, this platform can teach undergraduates and graduates about compound library design.

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Small Polar Hits against S. aureus: Screening, Initial Hit Optimization, and Metabolomic Studies

et al. 2019

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The global prevalence of antibacterial resistance requires new antibacterial drugs with novel chemical scaffolds and modes of action. It is also vital to design compounds with optimal physicochemical properties to permeate the bacterial cell envelope. We described an approach of combining and integrating whole cell screening and metabolomics into early antibacterial drug discovery using a library of small polar compounds. Whole cell screening of a diverse library of small polar compounds against Staphylococcus aureus gave compound 2. Hit expansion was carried out to determine structure–activity relationships. A selection of compounds from this series, together with other screened active compounds, was subjected to an initial metabolomics study to provide a metabolic fingerprint of the mode of action. It was found that compound 2 and its analogues have a different mode of action from some of the known antibacterial compounds tested. This early study highlighted the potential of whole cell screening and metabolomics in early antibacterial drug discovery. Future works will require improving potency and performing orthogonal studies to confirm the modes of action.

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Andrew S. T. Lim

Fragment library design, synthesis and expansion: nurturing a synthesis and training platform

Small Polar Hits against S. aureus: Screening, Initial Hit Optimization, and Metabolomic Studies

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