Methods and kits are disclosed for measuring activity of a methyltransferase or a radical SAM enzyme or for screening for an inhibitor of a methyltransferase or a radical SAM enzyme, where the methods and kits comprise, respectively, deaminase TM0936 for a MTase coupled assay and deaminase PA3170 for a radical SAM coupled assay.

The present invention relates to DNA polymerases. In particular, the present invention relates to heat labile DNA polymerases of marine origin, having high polymerase activity, strand displacement activity and 3-5′ exonuclease activity. Furthermore, the present invention provides heat labile DNA polymerases substantially without strand-displacement activity.

The present invention relates to DNA polymerases. In particular, the present invention relates to heat labile DNA polymerases of marine origin, having high polymerase activity, strand displacement activity and 3-5′ exonuclease activity. Furthermore, the present invention provides heat labile DNA polymerases substantially without strand-displacement activity.

The purpose of the invention is to provide a novel hematopoiesis-promoting agent and a medicament comprising the hematopoiesis-promoting agent as an active ingredient for preventing or treating anemia, in particular refractory anemia. The present invention provides a hematopoiesis-promoting agent comprising an S-adenosylmethionine synthase inhibitor.

The purpose of the invention is to provide a novel hematopoiesis-promoting agent and a medicament comprising the hematopoiesis-promoting agent as an active ingredient for preventing or treating anemia, in particular refractory anemia. The present invention provides a hematopoiesis-promoting agent comprising an S-adenosylmethionine synthase inhibitor.

The present invention relates to methods of detecting a neural injury biomarker in a biological sample. The method includes subjecting a biological sample to an assay according to the present invention that produces a measurable signal and detecting the measurable signal. The presence or absence of the measurable signal indicates the presence or absence of the biomarker in the sample. The present invention also relates to methods of determining the state of a subject's neural injury. The present invention also relates to systems and devices useful in carrying out the methods of the present invention.

This invention relates to methods of identifying, synthesizing, optimizing and profiling compounds that are inhibitors or activators of proteins, both naturally occurring endogenous proteins as well as certain variant forms of endogenous proteins, and novel methods of identifying such variants. The method accelerates the identification and development of compounds as potential therapeutically effective drugs by simplifying the pharmaceutical discovery and creation process through improvements in hit identification, lead optimization, biological profiling, and rapid elimination of toxic compounds. Implementation results in overall cost reductions in the drug discovery process resulting from the corresponding increases in efficiency.

Disclosed are methods of determining activity of CDK4 and CDK6 variants upon exposure to CDK inhibitors, methods for determining activity of a Rb variant, methods for determining the activity of a p16 variant in a cell, and methods for determining the sensitivity of a CDK4 variant or a CDK6 variant to p16 in a cell. Stable cell lines for determining activity of CDK4 variants, CDK6 variants, Rb variants, and p16 variants are also disclosed.

The disclosure provides polypeptides comprising an engineered p27, or a fragment thereof. Such polypeptides may be used to form trimeric protein complexes with a cyclin-dependent kinase 4 (Cdk4) (or a variant thereof) or Cdk6 (or a variant thereof), and a cyclin D (CycD) or a variant thereof.

The present invention relates to enzyme inhibitors. More specifically, the present invention relates to ligand-directed covalent modification of proteins; method of designing same; pharmaceutical formulation of same; and method of use.