Provided is a method for synchronously sequencing a sense strand and an antisense strand of an insert DNA, including: performing two rounds of rolling circle amplification and multiple displacement amplification to obtain a DNA nano ball template including a read1 strand sequencing template and a read2 strand sequencing template; and hybridizing the read1 strand sequencing template and the read2 strand sequencing template with read1 strand sequencing primers and read2 strand sequencing primers, respectively, and simultaneously performing read1 strand sequencing and read2 strand sequencing to obtain sequences of the sense strand and the antisense strand of the insert DNA. The method of the present disclosure can perform the sequencing from both ends of the insert DNA, significantly saving the time and costs for sequencing, and increasing the sequencing throughput.

The present invention pertains to hybrid RNase H2 proteins that include fragments of amino acid sequences from Pyrococcus abyssi (P.a.), Thermococcus kodakarensis (T.kod), and Pyrococcus furiosus organisms, as well as methods of using the same to improve mismatch discrimination and activity in a high-fidelity DNA polymerase buffer.

The present invention pertains to hybrid RNase H2 proteins that include fragments of amino acid sequences from Pyrococcus abyssi (P.a.), Thermococcus kodakarensis (T.kod), and Pyrococcus furiosus organisms, as well as methods of using the same to improve mismatch discrimination and activity in a high-fidelity DNA polymerase buffer.

Disclosed is a hybridisation capture method based on the pyrophosphorolysis reaction. According to the present invention, there is provided a method for increasing the ratio of a first nucleic acid sequence to second nucleic acid sequence in a sample.

Disclosed is a hybridisation capture method based on the pyrophosphorolysis reaction. According to the present invention, there is provided a method for increasing the ratio of a first nucleic acid sequence to second nucleic acid sequence in a sample.

Determining the sequence of a nucleic acid typically entails performing multiple cycles of a reaction that generates a signal, depending on the identity of one or more nucleotides in the sequence. Sequencing typically is done on a plurality of copies of a template to fortify the signal and to increase accuracy. However, as the number of cycles increases, some of the copies go out of phase, increasing signal-to-noise ratio and compromising accuracy. Provided is a strategy using blocking groups and dinucleotide recognition to bring each of the copies back into phase. This improves accuracy and enables the user to increase the length of sequence reads.

Determining the sequence of a nucleic acid typically entails performing multiple cycles of a reaction that generates a signal, depending on the identity of one or more nucleotides in the sequence. Sequencing typically is done on a plurality of copies of a template to fortify the signal and to increase accuracy. However, as the number of cycles increases, some of the copies go out of phase, increasing signal-to-noise ratio and compromising accuracy. Provided is a strategy using blocking groups and dinucleotide recognition to bring each of the copies back into phase. This improves accuracy and enables the user to increase the length of sequence reads.

Methods and compositions are described for multi-stage primer extension reactions such as multiplex polymerase chain reactions (PCR) and reverse transcriptase PCR. Primer extension stages are performed in a closed vessel without opening the vessel between stages. The multi-stage primer extension methods and compositions utilize earlier stage primers in an earlier stage and later stage primers in a later stage, wherein the later stage primers are blocked from extension during the earlier stage. The blocked primers of the present technology comprise photocleavable blocking groups and are substantially inactive until the blocking group is cleaved by exposure to ultraviolet light. The blocked primers can be activated by ultraviolet light without opening the vessel.

Methods and compositions are described for multi-stage primer extension reactions such as multiplex polymerase chain reactions (PCR) and reverse transcriptase PCR. Primer extension stages are performed in a closed vessel without opening the vessel between stages. The multi-stage primer extension methods and compositions utilize earlier stage primers in an earlier stage and later stage primers in a later stage, wherein the later stage primers are blocked from extension during the earlier stage. The blocked primers of the present technology comprise photocleavable blocking groups and are substantially inactive until the blocking group is cleaved by exposure to ultraviolet light. The blocked primers can be activated by ultraviolet light without opening the vessel.

A technique for sequencing nucleic acids in an automated or semi-automated manner is disclosed. Sample arrays of a multitude of nucleic acid sites are processed in multiple cycles to add nucleotides to the material to be sequenced, detect the nucleotides added to sites, and to de-block the added nucleotides of blocking agents and tags used to identify the last added nucleotide. Multiple parameters of the system are monitored to enable diagnosis and correction of problems as they occur during sequencing of the samples. Quality control routines are run during sequencing to determine quality of samples, and quality of the data collected.