70 results about "Sequencing by synthesis" patented technology

The present invention comprises systems and devices for sequencing of nucleic acid, such as short DNA sequences from clonally amplified single-molecule arrays.

The invention provides methods for improving the accuracy of a sequencing-by-synthesis reaction by sequencing at least a portion of a template and at least a portion of template complementary sequence.

The invention provides methods for sequencing a polynucleotide comprising stopping an extension cycle in a sequence by synthesis reaction before the reaction has run to near or full completion.

The invention provides methods and compositions, including, without limitation, algorithms, computer readable media, computer programs, apparatus, and systems for determining the identity of nucleic acids in nucleotide sequences using, for example, data obtained from sequencing by synthesis methods. A plurality of smaller flow cells is employed, each with a relatively small area to be imaged, in order to provide greater flexibility and efficiency.

The disclosure provides methods of generating paired reads in sequencing-by-synthesis process, particularly, in systems with relatively short read lengths (e.g., 15-35 bases), such as for example, in single molecule sequencing by synthesis. Several implementations of the methods are provided. Of particular advantage are the methods that permit re-sequencing of the template, which yields lower error rates. The invention further provides methods of using paired reads, for example, for positioning them over repeats or for assembly into large sequences, including whole genome assembly.

Efficient methods are disclosed for the high throughput identification of mutations in genes in members of mutagenized populations. The methods comprise DNA isolation, pooling, amplification, creation of libraries, high throughput sequencing of libraries, preferably by sequencing-by-synthesis technologies, identification of mutations and identification of the member of the population carrying the mutation and identification of the mutation.

The invention provides molecules and methods for nucleic acid synthesis reactions useful in sequencing-by-synthesis processes.

The invention is directed to a method of sequencing low-complexity amplicons randomly arrayed at high density on a surface. Methods of the invention include preparing amplicons for sequencing by a sets of primers that ensure initial signals front different amplicons on the surface will be evenly distributed among the different nucleotides being added in a sequencing by synthesis operation.

The disclosure provides a method of sequencing a nucleic acid molecule that contains two or more target regions to be sequenced (such as, for example, barcodes). The invention is advantageous for sequencing by synthesis two or more target regions whose combined lengths plus the length of any intermediate sequence exceeds the available read length on a given sequencing platform. The methods of the invention utilize nucleic acid constructs containing at least the following elements: a complement of a first universal primer, a first target sequence, an optional polynucleotide spacer, a complement of a second universal primer, and a second target sequence. A first round of sequencing by synthesis is performed to sequence the first target sequence by elongating the first universal primer. Once the sequence of the first target region is obtained, and before the complement of the second primer is reached, the first round of sequencing is terminated. Thereafter, a second round of sequencing by synthesis is initiated—this time, by elongating the second universal primer, thereby sequencing the second target region.

The invention provides methods for improving the fidelity of a sequencing-by-synthesis reaction by resequencing at least a portion of a nucleic acid template.

The invention provides a new method for DNA sequencing called “natural sequencing by synthesis” (nSBS). According to the method, DNA that includes a desired sequence is synthesized using a dNTP mix with a small percentage of fluorescently-labeled nucleotides. The fluorescent label is cleavable. In contrast to previous methods that utilize 100% labeled nucleic acids, use of a small percentage of labeled nucleic acids minimizes the distortion of the natural structure of the extending DNA strand and the DNA polymerase. Using the disclosed methods with less than 10,000 copies of template DNA and 10% of the nucleotides labeled, long homopolymer stretches up to 20 bases can be sequenced with high accuracy and Q20 (with 99% accuracy) read lengths of up to 1,000 bases can be achieved. A Q20 read length of greater than 100 bases can potentially be achieved, even if the sequencing is performed with 1,000 copies of a template and 10% of the nucleotides labeled.

A multi-channel flow cell can allow for reduced cross-contamination in sample loading and the ability to observe activity within the flow cell once the channels are loaded. A multi-channel flow cell includes a plurality of independently-addressable channels sandwiched between a two substrates. Each of the channels can be coated with a layer that facilitates support-binding of an analyte. Each of the channels terminates on one end in an inlet and on the other end in an outlet. A loading block having inlet ports that match the inlets of the channels can be mated to the inlets of the channels, and an outlet block can be mated to the outlets of the channels. Analytes can be introduced into the channels via the inlet ports of the loading block and are pulled through the channels by capillary action or by vacuum. Once analyte has been introduced into each of the channels, the loading and outlet blocks can be removed and the device turned over. Such a flow cell can be used for streamlining the process of reaction and interrogation of biochemical assays at the microfluidic level. Reagents can be introduced into each of the channels of the flow cell for chemical reactions therein, excess reagent being washed out through the channel outlets. Observation of optically-detectable moieties is then conducted. With such a flow cell optical labels associated with incorporation in a sequencing-by-synthesis reaction can be observed.

The invention provides methods and compositions for improving the fidelity of a sequencing-by-synthesis reaction by using a nucleotide derivative that forms a hydrogen bond with a complementary nucleotide on a template, but fails to form a phosphodiester bond with the 3′ hydroxyl group of a primer under conditions otherwise suitable for a polymerization reaction; thereby blocking incorporation of a mismatched nucleotide.

The present invention relates to a DNA sequencing method using a nucleoside triphosphate with a fluorescent blocking group on its 3′-OH end as a reversible terminator. Further, the present invention relates to sequencing-by-synthesis method using the mono-modified reversible terminator (MRT), the novel nucleotide monomer having a reversible fluorescent blocking group removable chemically or enzymatically at its 3′-OH end. The sequencing method of the present invention facilitates sequencing of bases inserted by terminating extension of a nucleotide chain by the nucleotide monomer and then detecting fluorescence signal from 3′-OH end. At this time, after analyzing the fluorescence signal, the blocking group conjugated to the 3′-OH end can be effectively removed, indicating that a free 3′-OH functional group can be successfully restored, so that the next monomer insertion is possible, making continuous sequencing possible.

The invention provides compositions and methods for sequencing nucleic acids and other applications. In sequencing by synthesis, unlabeled reversible terminators are incorporated by a polymerase in each cycle, then labeled after incorporation by binding to the reversible terminator a directly or indirectly labeled antibody or other affinity reagent.

The invention relates to methods for identifying the sequence of one or more variant nucleotides in a nucleic acid molecule. The method involves cleaving a double-stranded nucleic acid molecule containing a mismatch with a mismatch-specific endonuclease which cleaves on the 3′ side of the mismatch, and preserving the integrity of the variant nucleotide by ligating a double-stranded linker with a 3′-overhang to said variant nucleotide. Because the variant nucleotide is immediately adjacent to the linker, PCR and/or sequence-by-synthesis analysis can be readily carried out.

The invention relates to a high-throughput gene sequencing dynamic dispatching control method and system device. The system device comprises a temperature control system, a reagent control system, a laser trigger control system, a galvanometer scanning system and an optical acquisition system, wherein bridge-type PCR amplification is carried out for an interrupted to-be-tested fragment in a flow channel by virtue of the temperature and reagent control systems; the sequencing by synthesis (SBS) reaction is enabled to be successfully carried out by virtue of the temperature and reagent control systems; a fluorescent signal is captured and data is stored by virtue of laser triggering, galvanometer scanning and optical acquisition, so that an integrated control system of a high-throughput gene sequencing instrument is realized.