The present invention is relevant to polypeptides and novel methods of polypeptide evolution. The present invention further relates to methods of identifying a cross-species mutant polypeptide from, or based upon, a template polypeptide.

A method and apparatus for electrochemical detection of analyte in a sample makes use of a binding interaction and relies on the discovery that asymmetric distribution of a redox enzyme between two electrodes that occurs when a redox enzyme-containing reagent is immobilized at the surface of one electrode can be detected as a chemical potential gradient arising from an asymmetry in the distribution of oxidized or reduced redox substrate. This chemical potential gradient can be detected potentiometrically by observing the potential difference between the electrodes in an open circuit, or amperometrically by observing the current flow between the electrodes when the circuit is closed. In both cases, the observation of asymmetry can be done without the application of an external potential or current to the electrodes.

Systems and methods for detection of analytes by production of electrochemical species are provided. Some embodiments of this invention relate generally to carbon biosensors for detecting an analyte in a biological sample. More specifically, this invention relates generally to immunoassays for detection of analytes utilizing electroactive compounds, and more particularly, relates to diagnostic assays based on signals from electroactive chemical undergoing redox cycling on electrosensor consisting of carbon, to detect analytes wherein a precomplex mixture is formed and a multi-step, or single-step, assay is performed, resulting in greater signal.

A fluorous peptide microarray, a process of detecting information by using a fluorous peptide microarray, and a process of forming a fluorous peptide microarray are disclosed. The fluorous peptide microarray includes a covalently-modified conductive fluorous surface and fluorous-tagged peptides having natural amino acids positioned on the covalently-modified conductive fluorous surface. The fluorous-tagged peptides are configured for analysis of one or both of a protein and an enzyme. The process of detecting information includes using the fluorous peptide microarray. The process of forming the fluorous peptide microarray includes spotting the fluorous-modified composition to the fluorous surface after a solution phase reaction or transfer blotting the fluorous-modified composition.

A method and apparatus for electrochemical detection of analyte in a sample makes use of a binding interaction and relies on the discovery that asymmetric distribution of a redox enzyme between two electrodes that occurs when a redox enzyme-containing reagent is immobilized at the surface of one electrode can be detected as a chemical potential gradient arising from an asymmetry in the distribution of oxidized or reduced redox substrate. This chemical potential gradient can be detected potentiometrically by observing the potential difference between the electrodes in an open circuit, or amperometrically by observing the current flow between the electrodes when the circuit is closed. In both cases, the observation of asymmetry can be done without the application of an external potential or current to the electrodes.

The present disclosure provides methods in which adherent cells are treated with small molecules, cultured, lysed, and then analyzed by mass spectrometry to measure the activities of endogenous enzymes. The implementation of this method relies on the use of surfaces that are nanopatterned with cell adhesion ligands to mediate cell attachment and a peptide that is a substrate for the desired enzyme activity in the lysate.

The present invention provides a method for diagnosing or determining the risk of developing Alzheimer's disease and for treating Alzheimer's disease with S-equol. An aspect of the present invention includes the use of a direct mitochondrial target engagement biomarker to diagnose or assess the risk of developing Alzheimer's disease. Another aspect of the present invention includes the use of a pharmaceutically effective amount of S-equol to treat or prevent Alzheimer's disease in a subject diagnosed with or determined to be at risk of developing Alzheimer's disease.

The present invention provides an ex vivo method for aiding the diagnosis of Alzheimer's disease in a patient comprising: (i) determining the number of alleles of ApoE4 in the patient's genome; (ii) determining the combined expression level of at least three platelet proteins in a platelet sample from the patient; and (iii) comparing the resulting value of step (ii) to a control value, wherein the at least three platelet proteins include at least one isoform of alpha-tropomyosin containing exon 1a and at least two platelet proteins selected from monoamine oxidase-B, coagulation factor XIIIa, wild-type GSTO-1 or mutant GSTO-1, wherein a result higher than the control value is indicative of Alzheimer's disease. The invention also provides a solid support comprising one or more ligands of at least one isoform of alpha-tropomyosin containing exon 1a, and one or more ligands of at least two platelet proteins selected from monoamine oxidase-B, coagulation factor XIIIa, wild-type GSTO-1 protein and/or mutant GSTO-1 protein immobilized thereon.

The invention described herein provides biological markers for the diagnosis, prognosis, and monitoring of prostate cancer

A method of fitting the standard curve to analyze the substrate concentration by enzyme catalysis is provided, including the following steps: within the preset concentration range of substrate and the concentration range of its corresponding tool enzyme, select an enzyme at any concentration within the range to react with a substrate at any concentration within the range, test the optical signal, and obtain the standard curves for analyzing the substrate concentration by calculating with multiple reaction curves formed beforehand. By applying the method of this invention, the tedious steps of testing, analyzing and fitting the standard curve by enzyme catalysis by the prior art can be reduced, materials can be saved and the test efficiency can be improved without reducing the accuracy of the prior art.