Abstract: Provided herein is a compound of formula I: and the use thereof for detecting the presence of hydrogen sulfide in cells or tissues in vitro or in vivo. The detecting may be useful, for example, in diagnosing cancer or other diseases related to imbalanced hydrogen sulfide (H2S) production such as neurodegenerative diseases.

Abstract: Provided herein according to some embodiments of the invention are aryl boronate and/or aryl diaminoboryl compounds. Also provided are methods of detecting the presence of hydrogen peroxide (H2O2) and/or other reactive oxygen species (ROS) in a cell and/or tissue by contacting the cell and/or tissue with aryl boronate and/or aryl diaminoboryl compounds. Also provided according to embodiments of the invention are methods of producing persulfides in the presence of hydrogen peroxide (H2O2) and/or other reactive oxygen species (ROS) in a cell and/or tissue by contacting the cell and/or tissue with aryl boronate and/or aryl diaminoboryl compounds.

Abstract: Provided herein is a compound of formula I: and the use thereof for detecting the presence of hydrogen sulfide in cells or tissues in vitro or in vivo. The detecting may be useful, for example, in diagnosing cancer or other diseases related to imbalanced hydrogen sulfide (H2S) production such as neurodegenerative diseases.

Abstract: Catalysts of protein-disulfide isomerization of formula: where R1 is hydrogen or —COR4, where R4 is an optionally substituted aliphatic group or an optionally substituted aryl group; R2 is hydrogen or —CO—R5, where R5 is alkyl having 1-8 carbon atoms, an alkenyl having 3-8 carbon atoms or a phenyl, benzyl, phenethyl or naphthyl group; and R3 is hydrogen or alkyl group having 1-3 carbon atoms. Protein folding buffers comprising one or more of the above compounds. Method of catalyzing, in vivo or in vitro, the isomerization of disulfide linkages in a protein or peptide employing above catalysts. Method of forming, in vivo or in vitro, disulfide linkages in a protein or peptide employing above catalysts.

Abstract: Substituted dithiol pyrazine compounds useful as reducing agents in biologically relevant media having formula: where variables are defined herein and corresponding oxidized pyrazine dithianes. Reducing agents useful to reduce disulfide bonds, particularly in proteins, or to prevent the formation of disulfide bonds, particularly in proteins, and other biological molecules. Reducing agents useful to regulate protein function in proteins in which a sulfhydryl group is associated with biological activity. Reducing agents useful and suitable for application in a variety of biological applications, particularly as research and synthetic reagents. S-acylated dithiol pyrazine compounds, where R3 is an acyl group, are selectively activated as reducing agents by removal of the S-acyl groups enzymatically or chemically. Dithiol pyrazine reducing agents and corresponding S-acylated dithiol pyrazines, immobilized on surfaces or conjugated to other chemical species, are provided.

Abstract: Catalysts of protein-disulfide isomerization of formula: where R1 is hydrogen or —COR4, where R4 is an optionally substituted aliphatic group or an optionally substituted aryl group; R2 is hydrogen or —CO—R5, where R5 is alkyl having 1-8 carbon atoms, an alkenyl having 3-8 carbon atoms or a phenyl, benzyl, phenethyl or naphthyl group; and R3 is hydrogen or alkyl group having 1-3 carbon atoms. Protein folding buffers comprising one or more of the above compounds. Method of catalyzing, in vivo or in vitro, the isomerization of disulfide linkages in a protein or peptide employing above catalysts. Method of forming, in vivo or in vitro, disulfide linkages in a protein or peptide employing above catalysts.

Abstract: Substituted dithiol pyrazine compounds useful as reducing agents in biologically relevant media having formula: where variables are defined herein and corresponding oxidized pyrazine dithianes. Reducing agents useful to reduce disulfide bonds, particularly in proteins, or to prevent the formation of disulfide bonds, particularly in proteins, and other biological molecules. Reducing agents useful to regulate protein function in proteins in which a sulfhydryl group is associated with biological activity. Reducing agents useful and suitable for application in a variety of biological applications, particularly as research and synthetic reagents. S-acylated dithiol pyrazine compounds, where R3 is an acyl group, are selectively activated as reducing agents by removal of the S-acyl groups enzymatically or chemically. Dithiol pyrazine reducing agents and corresponding S-acylated dithiol pyrazines, immobilized on surfaces or conjugated to other chemical species, are provided.