Embodiments relate to methods, systems and compositions for reducing nonspecific amplification in isothermal amplification reactions. Some embodiments relate to reducing nonspecific amplification in loop-mediated isothermal amplification (LAMP) reactions with certain oligonucleotides.

Embodiments relate to methods, systems and compositions for reducing nonspecific amplification in isothermal amplification reactions. Some embodiments relate to reducing nonspecific amplification in loop-mediated isothermal amplification (LAMP) reactions with certain oligonucleotides.

Probe systems and methods are provided for detecting nucleic acid targets using labeled polynucleotide probes and antiprobes that interact together and with complementary targets. These interactions result in signaling changes that indicate target frequency and provide error-checking functions that facilitate single base discrimination. These probe:antiprobe compositions enable real-time PCR detection, end-point detection and microarray detection of microbial species, drug resistant mutants, and cancer related variants. The probe:antiprobe may be an internal probe between two primers or may be a primer-probe. The probe also may be modified by introducing a base mismatch to increase thermodynamic discrimination of a correct versus incorrect target differing by a single base. Probe systems also are provided for use in methods of increasing target amplification and detecting specific single base variants.

Probe systems and methods are provided for detecting nucleic acid targets using labeled polynucleotide probes and antiprobes that interact together and with complementary targets. These interactions result in signaling changes that indicate target frequency and provide error-checking functions that facilitate single base discrimination. These probe:antiprobe compositions enable real-time PCR detection, end-point detection and microarray detection of microbial species, drug resistant mutants, and cancer related variants. The probe:antiprobe may be an internal probe between two primers or may be a primer-probe. The probe also may be modified by introducing a base mismatch to increase thermodynamic discrimination of a correct versus incorrect target differing by a single base. Probe systems also are provided for use in methods of increasing target amplification and detecting specific single base variants.

Provided are methods of producing product nucleic acids involving the use of oligonucleotides that are modified by the application of a stimulus. Aspects of such methods may include producing product nucleic acids using de-activatable oligonucleotides that are deactivated by a de-activating stimulus, as well as methods that may include producing product nucleic acids using activatable oligonucleotides that are activated by an activating stimulus and de-activatable oligonucleotides that are deactivated by a de-activating stimulus. Also provided are kits, compositions and devices that include de-activatable oligonucleotides or activatable and de-activatable oligonucleotides, e.g., for use in performing the methods as described herein.

Provided are methods of producing product nucleic acids involving the use of oligonucleotides that are modified by the application of a stimulus. Aspects of such methods may include producing product nucleic acids using de-activatable oligonucleotides that are deactivated by a de-activating stimulus, as well as methods that may include producing product nucleic acids using activatable oligonucleotides that are activated by an activating stimulus and de-activatable oligonucleotides that are deactivated by a de-activating stimulus. Also provided are kits, compositions and devices that include de-activatable oligonucleotides or activatable and de-activatable oligonucleotides, e.g., for use in performing the methods as described herein.

The present invention relates to methods of imaging template hybridisation for estimating cluster numbers prior to solid phase amplification and sequencing. More particularly, an initial round of imaging is carried out at the single molecule template hybridisation stage which allows a general estimation of cluster numbers prior to clusters being formed. Amplification of the signal allows single molecule imaging to be carried out using standard sequencing imaging apparatus.

The present invention relates to methods of imaging template hybridisation for estimating cluster numbers prior to solid phase amplification and sequencing. More particularly, an initial round of imaging is carried out at the single molecule template hybridisation stage which allows a general estimation of cluster numbers prior to clusters being formed. Amplification of the signal allows single molecule imaging to be carried out using standard sequencing imaging apparatus.

Provided herein are methods and compositions for performing PCR with primers with blocked 3′-ends that are unblocked when these primers anneal to the template. The multiplexed PCR can be used as real-time qPCR, for end-point detection or as enrichment method for next generation sequencing (NGS). Also described herein are methods and compositions to improve sensitivity of mutation-specific PCR when targeting closely-spaced mutations.

Provided herein are methods and compositions for performing PCR with primers with blocked 3′-ends that are unblocked when these primers anneal to the template. The multiplexed PCR can be used as real-time qPCR, for end-point detection or as enrichment method for next generation sequencing (NGS). Also described herein are methods and compositions to improve sensitivity of mutation-specific PCR when targeting closely-spaced mutations.