Provided herein are dUTPase inhibitors, compositions comprising such compounds and methods of using such compounds and compositions.

Provided herein are dUTPase inhibitors, compositions comprising such compounds and methods of using such compounds and compositions.

The present invention discloses novel agents and methods for diagnosis and treatment of melanoma. Also disclosed are related arrays, kits, and screening methods.

The present invention discloses novel agents and methods for diagnosis and treatment of melanoma. Also disclosed are related arrays, kits, and screening methods.

This invention relates to compounds that inhibit creatine transport and/or creatine kinase, pharmaceutical compositions including such compounds, and methods of utilizing such compounds and compositions for the treatment of cancer.

This invention relates to compounds that inhibit creatine transport and/or creatine kinase, pharmaceutical compositions including such compounds, and methods of utilizing such compounds and compositions for the treatment of cancer.

Embodiments of the present disclosure provide for biaryl ligands (also referred to herein as biaryl compound), biaryl complexes, methods of making biaryl compounds, methods of making single enantiomers of these biaryl compounds, methods of use (e.g., catalysis), and the like.

Embodiments of the present disclosure provide for biaryl ligands (also referred to herein as biaryl compound), biaryl complexes, methods of making biaryl compounds, methods of making single enantiomers of these biaryl compounds, methods of use (e.g., catalysis), and the like.

The present disclosure is directed to a cleavable agent for enhanced magnetic resonance generally corresponding to the formula Y-L-R, wherein Y represents a catalyst-binding moiety having at least one isotopically labeled heteroatom, L represents a cleavable bond, and R represents a hyperpolarized payload having at least one isotopically labeled carbon. Also disclosed herein is a method of cleaving the cleavable agent for enhanced magnetic resonance.

The present disclosure is directed to a cleavable agent for enhanced magnetic resonance generally corresponding to the formula Y-L-R, wherein Y represents a catalyst-binding moiety having at least one isotopically labeled heteroatom, L represents a cleavable bond, and R represents a hyperpolarized payload having at least one isotopically labeled carbon. Also disclosed herein is a method of cleaving the cleavable agent for enhanced magnetic resonance.