Methods are disclosed herein for identifying a compound of use in treating a condition treatable by metformin. The methods include determining if the test compound binds a subunit of the mitochondrial electron transport complex IV, and/or alters the function of the mitochondrial electron transport complex IV. Methods for treating a subject with a condition treatable by metformin, are also disclosed. In some embodiments, the condition is type II diabetes.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.

A method of diagnosing the likelihood of recurrence of clear cell renal cell carcinoma is provided. The method involves a) detecting the gene expression signatures of mitochondrial electron transport chain subunits, mitochondrial ribosomal proteins, major histocompatibility complex class II (MHC-II) proteins or combinations thereof in a kidney tumor tissue sample; and b) determining that the subject has an elevated risk of recurrence of clear cell renal cell carcinoma if the gene expression signatures include certain sequences. In another embodiment, the method uses copper levels to diagnose the likelihood of recurrence of clear cell renal cell carcinoma.

The present invention relates to methods of diagnosing samples as well as various microfluidic, microcentrifuge and microfilter devices. In one embodiment, the present invention provides a method of diagnosing neurodegenerative diseases using mitochondrial and/or platelet samples. In another embodiment, the present invention provides a microfluidic device that selectively captures and analyzes a desired amount of target biological particle.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.

A method of determining the presence of bacteria expressing cytochrome c oxidase (‘the bacteria’), the method comprising: —providing a sample suspected of containing the bacteria; —providing a compound that has two redox states: a reduced state and an oxidised state, wherein cytochrome c oxidase can convert the compound from its reduced state to its oxidised state; —contacting an electrode either with (i) the compound in its oxidised state in the presence of the sample, then applying a reductive potential and measuring the current at the electrode; or (ii) the compound in its reduced state in the presence of the sample, then applying an oxidative potential and measuring the current at the electrode; and—comparing the magnitude of the current produced by the reductive potential or oxidative potential in the presence of the sample suspected of containing the bacteria with the magnitude of the current produced under the same conditions, but in the absence of the sample suspected of containing the bacteria, wherein a difference between the magnitude of current produced in the presence of the sample suspected of containing the bacteria and the magnitude of current produced in the absence of the sample suspected of containing the bacteria indicates the presence of the bacteria. Also provided herein is a sensor for determining the presence of bacteria expressing cytochrome c oxidase.

A method of determining the presence of bacteria expressing cytochrome c oxidase (the bacteria), the method comprising: providing a sample suspected of containing the bacteria; providing a compound that has two redox states: a reduced state and an oxidised state, wherein cytochrome c oxidase can convert the compound from its reduced state to its oxidised state; contacting an electrode either with (i) the compound in its oxidised state in the presence of the sample, then applying a reductive potential and measuring the current at the electrode; or (ii) the compound in its reduced state in the presence of the sample, then applying an oxidative potential and measuring the current at the electrode; and comparing the magnitude of the current produced by the reductive potential or oxidative potential in the presence of the sample suspected of containing the bacteria with the magnitude of the current produced under the same conditions, but in the absence of the sample suspected of containing the bacteria, wherein a difference between the magnitude of current produced in the presence of the sample suspected of containing the bacteria and the magnitude of current produced in the absence of the sample suspected of containing the bacteria indicates the presence of the bacteria. Also provided herein is a sensor for determining the presence of bacteria expressing cytochrome c oxidase.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.