Yen-Shi Lai scite author profile

A series of analogues of the protein kinase C (PKC) inhibitory natural product balanol which bear modified benzophenone subunits are described. The analogues were designed with the goal of uncovering structure-activity features that could be used in the development of PKC inhibitors with a reduced polar character compared to balanol itself. The results of these studies suggest that most of the benzophenone features found in the natural product are important for obtaining potent PKC inhibitory compounds. However, several modifications were found to lead to selective inhibitors of the related enzyme protein kinase A (PKA), and several specific modifications to the polar structural elements of the benzophenone were found to provide potent PKC inhibitors. In particular, it was found that replacement of the benzophenone carboxylate with bioisosteric equivalents could lead to potent analogues. Further, a tolerance for lipophilic substituents on the terminal benzophenone ring was uncovered. These results are discussed in light of recently available structural information for PKA.

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Paper-based flexible surface enhanced Raman scattering platforms and their applications to food safety

Huang

Cheng

Lai

2020

Trends in Food Science & Technology

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The Chemical Aspects of Raman Spectroscopy: Statistical Structure-Spectrum Relationship in The Analyses of Bioflavonoids

Wang¹,

Huang²,

Chen³

et al. 2020

Journal of Food and Drug Analysis

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Raman spectroscopy has been accepted as a useful tool for the characterization of natural products. However, to identify a specific compound in a mixture sample of natural products using Raman spectra alone is highly challenging if not impossible. We demonstrated an effective solution to such issues using a method combining statistical Raman spectroscopy and Mass spectrometry. The method was validated with a successful application to the identification of the major anthocyanin components in a purple yam (Dioscorea purpurea) extract. Of particular interest is that statistical grouping of the bioflavonoid standards that formed the database of this study was found to correspond closely to the conventional chemical classification. An initial theory on the chemical aspects of Raman spectroscopy pertaining to the connectivity of Raman-active functional groups in bioflavonoids was developed based on the statistical correlation between chemical classification and Raman spectroscopy.

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Ring size effect in the PKC inhibitory activities of perhydroazepine analogs of balanol

Lai¹,

Menaldino²,

Nichols³

et al. 1995

Bioorganic & Medicinal Chemistry Letters

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Yen-Shi Lai

Sustainable development of carbon nanodots technology: Natural products as a carbon source and applications to food safety

Synthesis and Protein Kinase Inhibitory Activity of Balanol Analogues with Modified Benzophenone Subunits

Paper-based flexible surface enhanced Raman scattering platforms and their applications to food safety

The Chemical Aspects of Raman Spectroscopy: Statistical Structure-Spectrum Relationship in The Analyses of Bioflavonoids

Ring size effect in the PKC inhibitory activities of perhydroazepine analogs of balanol

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