Method for detecting fragmented nucleic acid mutation and methylation on basis of nanopore sequencing
A nanopore sequencing and fragmentation technology, which is applied in biochemical equipment and methods, and the determination/inspection of microorganisms, can solve the problems of sequencing failure, low total nucleic acid fragmentation, low sequencing quality, etc. The effect of reducing the cost of testing and reducing the rate of cross-contamination
Active Publication Date: 2020-05-29
GENEIS TECH BEIJING CO LTD
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[0003] Nucleic acid in medical tumor samples, such as cfDNA / RNA, FFPE, etc., is severely fragmented (usually at or below 200 bp) and the total amount is usually low. Only short fragments with low initial amounts are used for library construction and nanopore sequencing. The advantages of the platform cannot be reflected in utilization rate, data yield, data quality and detection cost
Based on nanopore sequencing technology, the speed at which DNA single strands pass through nanopores (~500bp / s) will have a great impact on the accuracy and effectiveness of sequencing, and the sequencing quality of short fragments (<500bp) is low or cannot be read effectively. Therefore, directly constructing and sequencing fragmented DNA obtained from tumor samples, especially cfDNA (usually <200bp fragment distribution) will lead to low data quality or sequencing failure, which will directly affect the application of this platform in severely fragmented nucleic acid sequencing.
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[0037] 1. Connector design
[0038] In this embodiment, the following exemplary structures are taken as examples to illustrate the structures of the serial joints. Barcode (8-10bp) + restriction endonuclease site (4-6bp) + protective base (3bp), which is the most compact structure, the total length can be about 20bp. Based on this design region, you can also design a linker with a phosphate group modification at the 5', such as CCGCTTAA-GGATCC-GCG, where the left part is the tag sequence, the middle part is the enzyme cutting site that controls the direction of linear connection, and the right part is Side parts are protective bases. In principle, the necessary design area should be retained while reducing the need for excessive sequencing data. The combination of different restriction sites can be used to control the formation of directional linear series or circular design. For the above different design points, the design of PCR binding region can be added to the basic de...
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The invention discloses a method for detecting fragmented nucleic acid mutation and methylation on the basis of nanopore sequencing. Due to designing of serial connectors, the problem that the initialmass of a sample is insufficient can be solved, fragmented nucleic acids can be connected into a long fragment, utilization rates, effective read lengths and overall data volumes of nanopores can begreatly increased, modification information can be also acquired while nucleic acid mutation is detected, DNA (deoxyribonucleic acid) in nucleic acid samples, particularly tumor and liquid biopsy samples which are seriously degraded or fragmented, can be sequenced on a nanopore platform.
Description
technical field [0001] The invention relates to the field of gene sequencing, in particular to a method for detecting fragmented nucleic acid small molecules based on tandem nucleic acid fragments meeting the nanopore sequencing quality control standards. Background technique [0002] Nanopore sequencing technology has the characteristics of long read length, direct reading of modification information and parallel analysis of real-time data production. Nucleic acid-related variations such as shearing and RNA editing) and modification information (including but not limited to methylation, acetylation, etc.) have obvious advantages over next-generation sequencing or other sequencing platforms. The platform supports data production and analysis in parallel to realize real-time mutation / modification detection and diagnosis, coupled with a portable design, it has become an advantageous candidate technology for rapid pre-bed diagnosis and monitoring. [0003] Nucleic acid in medi...
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IPC IPC(8): C12Q1/6869
CPCC12Q1/6869C12Q2565/631C12Q2525/191
Inventor 王伟伟孙雪宋蕾田埂
Owner GENEIS TECH BEIJING CO LTD