The disclosure provides materials and methods for detection of pathogens. In particular, the disclosure provides primers and compositions for detection of viral pathogens, such as SARS-CoV-2. In addition, the disclosure provides a warm-start digital CRISPR assay for detection of viral pathogens, including SARS-CoV-2.

The present disclosure is directed to compositions, methods and kits for amplifying target nucleic acids while reducing non-specific amplification and undesired amplification products using a dual hot start reaction mixture that comprise at least two different hot start mechanisms.

The present disclosure is directed to compositions, methods and kits for amplifying target nucleic acids while reducing non-specific amplification and undesired amplification products using a dual hot start reaction mixture that comprise at least two different hot start mechanisms.

The present disclosure is directed to compositions, methods and kits for amplifying target nucleic acids while reducing non-specific amplification and undesired amplification products using a dual hot start reaction mixture that comprise at least two different hot start mechanisms.

The present disclosure is directed to compositions, methods and kits for amplifying target nucleic acids while reducing non-specific amplification and undesired amplification products using a dual hot start reaction mixture that comprise at least two different hot start mechanisms.

Described herein are systems and methods for multiplexed analysis of two or more targets in a test sample including a first set of particles including a first set of target-specific reagents and a first optically detectable identifier capable of emitting a first wavelength indicative of a first target, and at least one second set of particles including a second set of target-specific reagents and a second optically detectable identifier capable of emitting a second wavelength indicative of a second target; and at least one optically detectable reporter probe capable of constitutively emitting a third wavelength in response to reaction of the first set of target-specific reagents with the first target in the test sample and/or reaction of the second set of target-specific reagents with the second target in the test sample, wherein the first wavelength, the second wavelength, and the third wavelength are optically discernable from one another.

Described herein are systems and methods for multiplexed analysis of two or more targets in a test sample including a first set of particles including a first set of target-specific reagents and a first optically detectable identifier capable of emitting a first wavelength indicative of a first target, and at least one second set of particles including a second set of target-specific reagents and a second optically detectable identifier capable of emitting a second wavelength indicative of a second target; and at least one optically detectable reporter probe capable of constitutively emitting a third wavelength in response to reaction of the first set of target-specific reagents with the first target in the test sample and/or reaction of the second set of target-specific reagents with the second target in the test sample, wherein the first wavelength, the second wavelength, and the third wavelength are optically discernable from one another.

The present invention concerns reagents for the reversible protection of biological molecules. It relates in particular to compounds derived from azaisatoic anhydride and their uses for the protection of biological molecules, particularly enzymes, in order to block their activity. The invention also relates to the biological molecules protected in this manner and to the methods for making use of these reagents.

The present invention concerns reagents for the reversible protection of biological molecules. It relates in particular to compounds derived from azaisatoic anhydride and their uses for the protection of biological molecules, particularly enzymes, in order to block their activity. The invention also relates to the biological molecules protected in this manner and to the methods for making use of these reagents.

The invention is directed to methods of removing amplicons of non target and/or target nucleic acid sequences having one or more modified (e.g., methylated) nucleotides from a sample wherein the sample comprises the non target nucleic acid and a target nucleic acid sequence to be amplified.