A method of treating a disease that is treatable through inhibition of at least one kinase selected from the group consisting of CDK7, CDK4, CDK6, PIM2, TSSK3, MST4, NEK6, MAP3K, MST3, DDR1, SPHK1, CaMK1, AurA, BRK, CaMK4, and PIM1, the method comprising administering an effective dose of a compound represented by the following formula (1) or a salt thereof to a patient: ##STR00001##

A method of treating a disease that is treatable through inhibition of at least one kinase selected from the group consisting of CDK7, CDK4, CDK6, PIM2, TSSK3, MST4, NEK6, MAP3K, MST3, DDR1, SPHK1, CaMK1, AurA, BRK, CaMK4, and PIM1, the method comprising administering an effective dose of a compound represented by the following formula (1) or a salt thereof to a patient: ##STR00001##

Provided herein are novel synthetic compounds having the structure of formula (1),

##STR00001##

wherein X is a substituted or unsubstituted aromatic or heteroaromatic mono- or polycyclic ring system; and Y is substituted or unsubstituted C.sup.5-C.sup.10 alkyl or alkenyl group, or a pharmaceutically acceptable salt thereof. Also provided are pharmaceutical compositions. The compounds and pharmaceutical compositions are useful for inhibiting growth of a bacterium.

The patent discloses a novel metal free process for the preparation of corresponding phenol and ketone via allylic oxidation of substituted cyclohexenes. Air is used as oxidant in the present process and can be used as such or optionally selected from pure oxygen or atmospheric oxygen. Moreover, the process of the present invention utilizes easily available starting materials and is a green eco-friendly, convenient and economical process with high yield of >60% and high selectivity.

The patent discloses a novel metal free process for the preparation of corresponding phenol and ketone via allylic oxidation of substituted cyclohexenes. Air is used as oxidant in the present process and can be used as such or optionally selected from pure oxygen or atmospheric oxygen. Moreover, the process of the present invention utilizes easily available starting materials and is a green eco-friendly, convenient and economical process with high yield of >60% and high selectivity.

The present invention relates to multifunctional chemosensors that can measure the concentration, enantiomeric excess (ee), and absolute configuration of chiral compounds. The chemosensors described herein may contain a backbone moiety that is bonded to a fluorescent moiety and a moiety for bonding a chiral compound. Backbone moieties may include aromatic groups, for example, naphthyl. The chemosensors described herein are useful for measuring concentration, enantiomeric excess, and absolute configuration of organic molecules in areas such as high throughput screening.

The present invention relates to multifunctional chemosensors that can measure the concentration, enantiomeric excess (ee), and absolute configuration of chiral compounds. The chemosensors described herein may contain a backbone moiety that is bonded to a fluorescent moiety and a moiety for bonding a chiral compound. Backbone moieties may include aromatic groups, for example, naphthyl. The chemosensors described herein are useful for measuring concentration, enantiomeric excess, and absolute configuration of organic molecules in areas such as high throughput screening.

Compositions and methods related to anti-cancer terpenoid compounds isolated from plants in the Salviniaceae family, pharmaceutical compositions comprising the same, and methods of treating cancer.

Compositions and methods related to anti-cancer terpenoid compounds isolated from plants in the Salviniaceae family, pharmaceutical compositions comprising the same, and methods of treating cancer.

The present disclosure relates to compounds, pharmaceutical compositions comprising such compounds, and use of such compounds in methods of treatment or in medicaments for treatment of inflammatory diseases and certain neurological disorders that are related to inflammatory signaling processes, including but not limited to misfolded proteins.