Chun Meng Song scite author profile

Modern drug discovery is characterized by the production of vast quantities of compounds and the need to examine these huge libraries in short periods of time. The need to store, manage and analyze these rapidly increasing resources has given rise to the field known as computer-aided drug design (CADD). CADD represents computational methods and resources that are used to facilitate the design and discovery of new therapeutic solutions. Digital repositories, containing detailed information on drugs and other useful compounds, are goldmines for the study of chemical reactions capabilities. Design libraries, with the potential to generate molecular variants in their entirety, allow the selection and sampling of chemical compounds with diverse characteristics. Fold recognition, for studying sequence-structure homology between protein sequences and structures, are helpful for inferring binding sites and molecular functions. Virtual screening, the in silico analog of high-throughput screening, offers great promise for systematic evaluation of huge chemical libraries to identify potential lead candidates that can be synthesized and tested. In this article, we present an overview of the most important data sources and computational methods for the discovery of new molecular entities. The workflow of the entire virtual screening campaign is discussed, from data collection through to post-screening analysis.

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Meta-analysis of genetic polymorphisms and gastric cancer risk: Variability in associations according to race

Loh

Koh

Yeo

et al. 2009

European Journal of Cancer

100

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Pleiotrophin Enhances Clonal Growth and Long-Term Expansion of Human Embryonic Stem Cells

Soh

Song

Vallier

et al. 2007

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To identify additional growth factors for optimizing propagation of human embryonic stem cells (hESCs), we mined publicly available data sets for the transcriptomes of murine and human ESCs and feeder cells, thereby generating a list of growth factors and complementary receptors. We identified the major pathways previously reported to be important, as well as several new ones. One pathway is the Pleiotrophin (PTN)-Pleiotrophin receptor (PTPRZ1) axis. Murine fibroblasts secrete Ptn, whereas hESCs expressed PTPRZ1, which is downregulated upon differentiation. Depletion of PTPRZ1 resulted in decreased colony formation and lower recovery of hESCs. Supplementation of chemically defined medium for feeder-free propagation of hESCs with PTN allowed higher recovery of hESCs without loss of pluripotency. PTN-PTPRZ1 functions here predominantly via an antiapoptotic effect mediated in part by the activation of Akt. These findings reveal the underlying importance of PTN in hESC survival and its usefulness in the clonal manipulation and large-scale propagation of hESCs. STEM CELLS 2007;25:3029 -3037 Disclosure of potential conflicts of interest is found at the end of this article.

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Structural Insights into the Design of Small Molecule Inhibitors That Selectively Antagonize Mcl-1

et al. 2010

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Chun Meng Song

Recent advances in computer-aided drug design

Meta-analysis of genetic polymorphisms and gastric cancer risk: Variability in associations according to race

Pleiotrophin Enhances Clonal Growth and Long-Term Expansion of Human Embryonic Stem Cells

Structural Insights into the Design of Small Molecule Inhibitors That Selectively Antagonize Mcl-1

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