The present invention relates to a compound, or a dimer or a pharmaceutically acceptable salt or solvate of said compound or dimer, for use in a method for the treatment of a disease, disorder or condition caused by an RNA virus, said compound having the general structure shown in Formula (I).

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The present invention relates to a compound, or a dimer or a pharmaceutically acceptable salt or solvate of said compound or dimer, for use in a method for the treatment of a disease, disorder or condition caused by an RNA virus, said compound having the general structure shown in Formula (I).

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The invention provides compounds and compositions comprising compounds that modulate histone acyl transferase (HAT). The invention further provides methods for treating neurodegenerative disorders, conditions associated with accumulated amyloid-beta peptide deposits, Tau protein levels, and/or accumulations of alpha-synuclein as well as cancer by administering a compound that modulates HAT to a subject.

The invention provides compounds and compositions comprising compounds that modulate histone acyl transferase (HAT). The invention further provides methods for treating neurodegenerative disorders, conditions associated with accumulated amyloid-beta peptide deposits, Tau protein levels, and/or accumulations of alpha-synuclein as well as cancer by administering a compound that modulates HAT to a subject.

Disclosed are dihydrobenzoxazinone compounds, dihydroquinolone compounds, and methods of their synthesis. The disclosed compounds may be prepared by reacting a benzoxazinedione compound and a ketone compound in the presence of an N-heterocyclic carbine (NHC) catalyst to perform a NHC-catalyzed decarboxylative cycloaddition. The disclosed compounds may be utilized to treat diseases and disorders associated with the biological activity of dihydrobenzoxazinone compounds and dihydroquinolone compounds.

Disclosed are dihydrobenzoxazinone compounds, dihydroquinolone compounds, and methods of their synthesis. The disclosed compounds may be prepared by reacting a benzoxazinedione compound and a ketone compound in the presence of an N-heterocyclic carbine (NHC) catalyst to perform a NHC-catalyzed decarboxylative cycloaddition. The disclosed compounds may be utilized to treat diseases and disorders associated with the biological activity of dihydrobenzoxazinone compounds and dihydroquinolone compounds.

Inhibitor compounds and agents of Cathepsin C, CELA1, CELA3A and/or structurally related molecules thereto, compositions comprising same and uses thereof in the inhibition and/or prevention of cell and/or tissue necrosis is described. Various applications for the described compounds, and combination therapies are described as well.

Inhibitor compounds and agents of Cathepsin C, CELA1, CELA3A and/or structurally related molecules thereto, compositions comprising same and uses thereof in the inhibition and/or prevention of cell and/or tissue necrosis is described. Various applications for the described compounds, and combination therapies are described as well.

Disclosed is a blue light absorbing compound, its preparation method and use. The compound has high stability and is suitable for high temperature processing conditions as well as outdoor application. A method of covalently bonding a blue light absorbing compound with an ultraviolet light absorbing compound for increasing its stability is also provided. The compound is capable of absorbing or blocking ultraviolet light (UVA, UVB) and blue light to protect eyes. But long-wavelength blue light can be absorbed diminishingly, so that the transmitted light has a particularly good visual experience.

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Disclosed is a blue light absorbing compound, its preparation method and use. The compound has high stability and is suitable for high temperature processing conditions as well as outdoor application. A method of covalently bonding a blue light absorbing compound with an ultraviolet light absorbing compound for increasing its stability is also provided. The compound is capable of absorbing or blocking ultraviolet light (UVA, UVB) and blue light to protect eyes. But long-wavelength blue light can be absorbed diminishingly, so that the transmitted light has a particularly good visual experience.

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