Fusion detection method based on homologous genes of differential SNP markers

A homologous gene and detection method technology, applied in the field of DNA sequencing, can solve the problems of large influence of repetitive sequences, undetectable signals, undetectable small tandem repeats, balanced translocation of chromosome inversions, etc.

Active Publication Date: 2019-07-19
北京诺禾心康基因科技有限公司
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Problems solved by technology

While the second-generation sequencing technology greatly reduces the cost of sequencing, it also greatly increases the sequencing speed and maintains high accuracy. It used to take 3 years to complete the sequencing of a human genome, but it only takes 1 week using the second-generation sequencing technology , but the sequence read length is much shorter than that of the first generation sequencing technology
The first is a method that relies solely on coverage information. This method is the first method to detect structural variation. It is relatively intuitive to understand, but it cannot detect small tandem duplications, chromosomal inversions, and balanced translocations. Now it is rarely used alone. use
The second method ma

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  • Fusion detection method based on homologous genes of differential SNP markers
  • Fusion detection method based on homologous genes of differential SNP markers
  • Fusion detection method based on homologous genes of differential SNP markers

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[0085] The technical solutions of the present invention will be described in further detail below with reference to the accompanying drawings and embodiments.

[0086] The present invention provides a method for judging the fusion of homologous genes based on differential SNP markers, such as Figure 1 to Figure 5 As shown, a preferred embodiment of the present invention is shown therein.

[0087] Specifically, the fusion determination method includes:

[0088] 1) Extract double-ended pair-end reads that meet the insert length conditions compared to the reference genome, and extract single-end reads that have SNP signals with the reference genome;

[0089] 2) Determine the SNP signal of double-ended pair-end reads or single-ended reads, compare the sequence consistency of each sequenced reads sequence with each homologous gene, find the continuous consistent SNP mark, obtain the breakpoint position, and Based on this, the region where the fusion is located is determined.

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Abstract

The invention relates to a fusion detection method based on homologous genes of differential SNP markers. The fusion detection method utilizes differential SNP signals of two genes to distinguish, bypasses the difference in sequencing depth, and performs consistency comparison on each sequencing reads sequence and the homologous gene sequence by using abnormal inserted fragment length of double-ended reads and the soft clip signal of single-end reads, so as to look for a continuous consistency SNP mark and infer the breakpoint interval. The fusion detection method based on homologous genes ofdifferential SNP markers can obtain the interval where the breakpoint is located, that is, the last site of the first half and the first site of the second half, and the separation distance of the interval depends on the physical distance of the detected two sites, thus avoiding the problem that the conventional structural variation detection method encounters in the detection of repeated sequences.

Description

technical field [0001] The invention relates to the field of DNA sequencing, in particular to a fusion detection method of homologous genes based on differential SNP markers. Background technique [0002] DNA (deoxyribonucleic acid) sequencing is an important experimental technology widely used in biological research. There have been related reports since the publication of the DNA double helix structure theory, but the operation process is complicated and has not formed a scale. [0003] In 1977, the end-termination sequencing method was born out of Sanger's research efforts. Sanger sequencing first fragments the genomic DNA, then clones it into a plasmid vector, and then transforms E. coli. For each sequencing reaction, single clones were picked and plasmid DNA was purified. Each cycle sequencing reaction is terminated with a dideoxynucleoside triphosphate (ddNTP), which, since ddNTP lacks the 3-OH group required for elongation, enables the elongated oligonucleotide to s...

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Application Information

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IPC IPC(8): G16B30/10G16B20/30
CPCG16B20/30G16B30/10
Inventor 李文锋潘琪孙小庆冷雪蒋红果丛博李早
Owner 北京诺禾心康基因科技有限公司
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