Systems and methods for rapid diagnostics related to the use of CRISPR effector systems and optimized guide sequences, including multiplex lateral flow diagnostic devices and methods of use, are provided.

Disclosed herein are detection devices, systems including such detection devices, and methods of using such detection devices. A detection device comprises a fluidic channel configured to receive a plurality of molecules to be detected, a plurality of temperature sensors, and an insulating material encapsulating the plurality of temperature sensors and providing a barrier between the plurality of temperature sensors and contents of the fluidic channel. A surface of the insulating material within the fluidic channel provides a plurality of sites for binding the plurality of molecules to be detected. Each of the plurality of temperature sensors is configured to detect, in the presence of an alternating magnetic field, a temperature change indicating presence or absence of one or more magnetic nanoparticles (MNPs) coupled to at least one of the plurality of molecules to be detected at a respective subset of the plurality of sites.

Disclosed herein are detection devices, systems including such detection devices, and methods of using such detection devices. A detection device comprises a fluidic channel configured to receive a plurality of molecules to be detected, a plurality of temperature sensors, and an insulating material encapsulating the plurality of temperature sensors and providing a barrier between the plurality of temperature sensors and contents of the fluidic channel. A surface of the insulating material within the fluidic channel provides a plurality of sites for binding the plurality of molecules to be detected. Each of the plurality of temperature sensors is configured to detect, in the presence of an alternating magnetic field, a temperature change indicating presence or absence of one or more magnetic nanoparticles (MNPs) coupled to at least one of the plurality of molecules to be detected at a respective subset of the plurality of sites.

A gene sequencing reaction device, a gene sequencing system and a gene sequencing reaction method. The gene sequencing reaction device includes: a supporting platform; a dipping container disposed on the supporting platform, wherein the dipping container has a dipping reaction area, and the dipping reaction area is configured to hold a chemical reagent for gene sequencing reaction, so as to dip a sequencing chip having a DNA sample loading structure on the surface and having a DNA sample loaded thereon in the chemical reagent to perform a gene sequencing reaction; a temperature control apparatus, configured to control the temperature of the chemical reagent in the dipping reaction area; and a transfer apparatus, configured to insert the sequencing chip into the dipping reaction area or pull out the sequencing chip from the dipping reaction area.

A gene sequencing reaction device, a gene sequencing system and a gene sequencing reaction method. The gene sequencing reaction device includes: a supporting platform; a dipping container disposed on the supporting platform, wherein the dipping container has a dipping reaction area, and the dipping reaction area is configured to hold a chemical reagent for gene sequencing reaction, so as to dip a sequencing chip having a DNA sample loading structure on the surface and having a DNA sample loaded thereon in the chemical reagent to perform a gene sequencing reaction; a temperature control apparatus, configured to control the temperature of the chemical reagent in the dipping reaction area; and a transfer apparatus, configured to insert the sequencing chip into the dipping reaction area or pull out the sequencing chip from the dipping reaction area.

A nucleic acid detection system according to an embodiment is a nucleic acid detection system to detect a target nucleic acid in a sample and includes a thermal inactivation chamber, an amplification chamber, and a detection chamber, all of which constitute a liquid flow path. In this system, liquid flows through the thermal inactivation chamber, the amplification chamber, and the detection chamber sequentially. The thermal inactivation chamber includes a reagent to thermally inactivate and decompose the sample. The amplification chamber includes a reagent to amplify the target nucleic acid. The detection chamber includes a test strip to conduct a Cas enzyme reaction with the target nucleic acid and a lateral flow detection.

A nucleic acid detection system according to an embodiment is a nucleic acid detection system to detect a target nucleic acid in a sample and includes a thermal inactivation chamber, an amplification chamber, and a detection chamber, all of which constitute a liquid flow path. In this system, liquid flows through the thermal inactivation chamber, the amplification chamber, and the detection chamber sequentially. The thermal inactivation chamber includes a reagent to thermally inactivate and decompose the sample. The amplification chamber includes a reagent to amplify the target nucleic acid. The detection chamber includes a test strip to conduct a Cas enzyme reaction with the target nucleic acid and a lateral flow detection.

The present disclosure relates to a diagnostic method and a device performing the same. According to an aspect of the present disclosure, a diagnostic device is a diagnostic device that uses a test kit including a specimen plate having a specimen region in which a specimen is smeared and a patch plate configured to store a contact-type patch, which comes into contact with the specimen to stain the specimen, and the diagnostic device includes a body having a loading region in which the test kit is placed, a moving unit configured to move the patch plate and the specimen plate of the test kit relative to each other so that the specimen placed in the test kit is smeared in the specimen region, and a contact unit configured to move a structure of the test kit such that the contact-type patch comes into contact with the smeared specimen so that the smeared specimen is stained.

The present disclosure relates to a diagnostic method and a device performing the same. According to an aspect of the present disclosure, a diagnostic device is a diagnostic device that uses a test kit including a specimen plate having a specimen region in which a specimen is smeared and a patch plate configured to store a contact-type patch, which comes into contact with the specimen to stain the specimen, and the diagnostic device includes a body having a loading region in which the test kit is placed, a moving unit configured to move the patch plate and the specimen plate of the test kit relative to each other so that the specimen placed in the test kit is smeared in the specimen region, and a contact unit configured to move a structure of the test kit such that the contact-type patch comes into contact with the smeared specimen so that the smeared specimen is stained.

Embodiments of the present invention relate to apparatus and methods of detecting and/or quantifying a target moiety in a sample comprising the use of a nucleic-acid molecule based recapture event. Particularly although not exclusively certain embodiments of the present invention relate to apparatus and assays which comprise a displacement of an immobilised nucleic acid molecule to form a target-nucleic acid molecule complex and detection of a subsequent recapture event of either the target-nucleic acid complex or the nucleic acid molecule on its own. Other aspects and embodiments are described herein.