Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. There have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy or polynucleotide sequencing applications.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. There have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy or polynucleotide sequencing applications.

Provided herein are devices and methods suitable for sequencing, detecting, amplifying, analyzing, and performing sample preparation procedures for nucleic acids and other molecules. In some cases, the devices and methods provided herein are used for computation.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. These have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy of polynucleotide sequencing applications.

The present invention provides novel methods, systems, tools, and kits for the simultaneous detection, identification and/or characterization of all viruses known or suspected to infect vertebrates. The methods, systems, tools, and kits described herein are based upon the virome capture sequencing platform (VirCapSeq-VERT), a novel platform developed by the inventors. The invention also provides methods and kits for designing and constructing of the virome capture sequencing platform.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. There have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy or polynucleotide sequencing applications.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. There have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy or polynucleotide sequencing applications.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. These have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy of polynucleotide sequencing applications.

Disclosed herein are methods and systems for detection and discrimination of optical signals from a densely packed substrate. These have broad applications for biomolecule detection near or below the diffraction limit of optical systems, including in improving the efficiency and accuracy of polynucleotide sequencing applications.

A method is described for the analysis of hybridisation between a target in solution and a probe bound at a surface. The method comprises receiving detection intensity results for hybridisation of the target with a plurality of different probes, the probes being selected so that a range of hybridisation detection intensity results for the hybridisation between the target and the probe is covered. The method further comprises analysing the detection intensity results as function of the hybridisation free energy. According to embodiments of the present invention, the receiving and/or analysing takes into consideration a thermodynamic non-equilibrium state for the target-probe bounding state.