The present invention relates to compounds that are inhibitors of hepatitis B virus (HBV). Compounds of this invention are useful alone or in combination with other agents for treating, ameliorating, preventing or curing HBV infection and related conditions. The present invention also relates to pharmaceutical compositions containing the compounds.

Provided are novel types of hybrid cyclic libraries that contain a known protein binding domain of a natural product. Also provided are synthetic methods to make such libraries and methods for the deconvolution of hits using partially split-pooled library compounds. Such methods are applicable for use with the entire human proteome to screen such libraries that bind and for the identification of hits.

Provided are novel types of hybrid cyclic libraries that contain a known protein binding domain of a natural product. Also provided are synthetic methods to make such libraries and methods for the deconvolution of hits using partially split-pooled library compounds. Such methods are applicable for use with the entire human proteome to screen such libraries that bind and for the identification of hits.

Sultam compounds, pharmaceutical compositions containing them, methods of making them, and methods of using them including methods for treating disease states, disorders, and conditions associated with the KEAP1-Nrf2 interaction, such as inflammatory bowel disease, including Crohn's disease and ulcerative colitis.

Engineered non-plant cells that produce a benzylisoquinoline alkaloid product that is a derivative of canadine along a metabolic pathway that converts canadine, or an analog of canadine, to a noscapinoid product are provided. Methods of culturing engineered non-plant cells that produce a noscapinoid product and pharmaceutical compositions are also provided.

Engineered non-plant cells that produce a benzylisoquinoline alkaloid product that is a derivative of canadine along a metabolic pathway that converts canadine, or an analog of canadine, to a noscapinoid product are provided. Methods of culturing engineered non-plant cells that produce a noscapinoid product and pharmaceutical compositions are also provided.

Provided are chemosensor compounds of formula (I) useful for detecting an ion, such as Pb.sup.2+ in an aqueous sample. Also provided are a chemosensor device including such compounds and methods of use thereof.

Provided are chemosensor compounds of formula (I) useful for detecting an ion, such as Pb.sup.2+ in an aqueous sample. Also provided are a chemosensor device including such compounds and methods of use thereof.

The present invention provides a compound as represented by formula (1) or a pharmaceutically acceptable salt, a solvate, an active metabolite, a polymorph, an isotope label, an isomer or a prodrug thereof. The present invention also provides a pharmaceutical composition containing the same and the use of the compound and the pharmaceutical composition in preparation of drugs for treating tyrosine kinase-mediated diseases. The compound and the pharmaceutical composition comprising same provided by the present disclosure have significant tyrosine kinase inhibitory activity, can overcome tumor drug resistance, and break through through blood-brain barrier, also have excellent pharmacokinetic properties and excellent oral bioavailability, and can be administered in a small dosage, thereby reducing treatment costs of and possible side effects to a patient. Thus, the application potential is very great.

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The present invention provides a compound as represented by formula (1) or a pharmaceutically acceptable salt, a solvate, an active metabolite, a polymorph, an isotope label, an isomer or a prodrug thereof. The present invention also provides a pharmaceutical composition containing the same and the use of the compound and the pharmaceutical composition in preparation of drugs for treating tyrosine kinase-mediated diseases. The compound and the pharmaceutical composition comprising same provided by the present disclosure have significant tyrosine kinase inhibitory activity, can overcome tumor drug resistance, and break through through blood-brain barrier, also have excellent pharmacokinetic properties and excellent oral bioavailability, and can be administered in a small dosage, thereby reducing treatment costs of and possible side effects to a patient. Thus, the application potential is very great.

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