Nanopore-based Fourth-generation DNA Sequencing Technology 被引量：15

Nanopore-based Fourth-generation DNA Sequencing Technology

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摘要 Nanopore-based sequencers, as the fourth-generation DNA sequencing technology, have the potential to quickly and reliably sequence the entire human genome for less than $1000, and possibly for even less than $100. The single-molecule techniques used by this technology allow us to further study the interaction between DNA and protein, as well as between protein and protein.Nanopore analysis opens a new door to molecular biology investigation at the single-molecule scale.In this article, we have reviewed academic achievements in nanopore technology from the past as well as the latest advances, including both biological and solid-state nanopores, and discussed their recent and potential applications. Nanopore-based sequencers, as the fourth-generation DNA sequencing technology, have the potential to quickly and reliably sequence the entire human genome for less than $1000, and possibly for even less than $100. The single-molecule techniques used by this technology allow us to further study the interaction between DNA and protein, as well as between protein and protein.Nanopore analysis opens a new door to molecular biology investigation at the single-molecule scale.In this article, we have reviewed academic achievements in nanopore technology from the past as well as the latest advances, including both biological and solid-state nanopores, and discussed their recent and potential applications.

作者 Yanxiao Feng Yuechuan Zhang Cuifeng Ying Deqiang Wang Chunlei Du

机构地区 Chongqing Key Laboratory of Multi-scale Manufacturing Technology University of Chinese Academy of Sciences School of Physical Electronics MOE Key Laboratory of Weak-light Nonlinear Photonics

出处《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2015年第1期4-16,共13页 基因组蛋白质组与生物信息学报（英文版）

基金 supported by the National Natural Science Foundation of China–China(Grant No.61471336) the Joint-Scholar of West Light Foundation of the Chinese Academy of Sciences awarded to DW and Shanghai Synchrotron Radiation Facility CY was supported by China Postdoctoral Science Foundation–China(Grant No.2014M551011)

关键词 Nanopore DNA sequencing Single base Single molecule Nanopore DNA sequencing Single base Single molecule

分类号 Q78 [生物学—分子生物学]

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参考文献99

1Deamer DW, Akeson M. Nanopores and nucleic acids: prospects for ultrarapid sequencing. Trends Biotechnol 2000;18:147-51.
2Church G, Deamer DW, Branton D, Baldarelli R, Kasianowicz J. Measuring physical properties. US5795782; 1998.
3Kasianowicz JJ, Brandin E, Branton D, Deamer DW. Characterization of individual polynucleotide molecules using a membrane channel. Proc Natl Acad Sci U S A 1996;93:13770-3.
4Coulter WH. Means for counting particles suspended in a fluid. US2656508; 1953.
5Cornell BA, BraachMaksvytis VLB, King LG, Osman PDJ, Raguse B, Wieczorek L, et al. A biosensor that uses ion-ehannel switches. Nature 1997;387:580-3.
6Venkatesan BM, Dorvel B, Yemenicioglu S, Watkins N, Petrov I, Bashir R. Highly sensitive, mechanically stable nanopore sensors for DNA analysis. Adv Mater 2009;21:2771.
7Branton D, Deamer DW, Marziali A, Bayley H, Benner SA, Butler T, et al. The potential and challenges of nanopore sequencing. Nat Biotechnol 2008;26:1146-53.
8Wanunu M. Nanopores: a journey towards DNA sequencing. Phys Life Rev 2012;9:125-58.
9Maitra RD, Kim J, Dunbar WB. Recent advances in nanopore sequencing. Electrophoresis 2012;33:3418-28.
10Dekker C. Solid-state nanopores. Nat Nanotechnol 2007;2:209-15.

同被引文献87

1史庆丰,高晓东,胡必杰.Delta新冠病毒变异株的特性及流行现状与防控研究进展[J].中华医院感染学杂志,2021,31(24):3703-3707. 被引量：53
2ZHOU XiaoGuang1,REN LuFeng1,LI YunTao2,ZHANG Meng1,YU YuDe2 & YU Jun1 1 Key Laboratory of Genome Sciences and Information,Beijing Institute of Genomics,Chinese Academy of Sciences,Beijing 100029,China,2 Institute of Semiconductors,Chinese Academy of Sciences,Beijing 100083,China.Next-generation sequencing technology:A technology review and future perspective[J].Science China(Life Sciences),2010,53(1):44-57. 被引量：29
3DRUZHININA Irina,KUBICEK Christian P..Species concepts and biodiversity in Trichoderma and Hypocrea:from aggregate species to species clusters?[J].Journal of Zhejiang University-Science B(Biomedicine & Biotechnology),2005,6(2):100-112. 被引量：10
4Buerrnans H P, den Dunnen J T. Next generation sequenc- ing technology: advances and applications[J]. Biochim Biophys Acta, 2014, 1842(10): 1932-1941.
5Baudhuin L M. A new era of genetic testing and its im- pact on research and clinical care[J]. Clin Chem, 2012, 58(6): 1070-1071.
6Chan L L, Jiang E Bioinformatics analysis of circulating cell-free DNA sequencing data[J]. Clin Biochem, 2015, 48(15): 962-975.
7Meldrum C, Doyle M A, Tothill R W. Next-generation se- quencing for cancer diagnostics: a practical perspective[J]. Clin Biochem Rev, 2011, 32(11): 177-195.
8Mestan K K, Ilkhanoff L, Mouli S, et al. Genomic se- quencing in clinical trials[J]. J Transl Med, 2011, 9: 222.
9Behjati S, Tarpey P S. What is next generation sequenc- ing[J]. Arch Dis Child Educ Pract Ed, 2013, 98(6): 236- 238.
10Van Dijk E L, Auger H, Jaszczyszyn Y, et al. Ten years of next-generation sequencing technology[J]. Trends Genet, 2014, 30(9): 418-426.

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1张小珍,尤崇革.下一代基因测序技术新进展[J].兰州大学学报（医学版）,2016,42(3):73-80. 被引量：28
2张思源,欧江涛,王资生,柴志欣,钟金城.基因组学技术及其在水产动物研究中的应用综述[J].江苏农业科学,2017,45(15):1-6.
3于军.实现“终极版”核苷酸测序仪的技术要素[J].遗传,2018,40(11):929-937. 被引量：2
4王磊,杨春艳,李芳芳,穆登彩,沈昊,郑尚永.单细胞测序技术的发展及应用[J].基因组学与应用生物学,2020,39(11):5381-5388. 被引量：5
5Feng Cai,Irina S.Druzhinina.In honor of John Bissett:authoritative guidelines on molecular identification of Trichoderma[J].Fungal Diversity,2021(2):1-69. 被引量：8
6张闻婷,焦萌,王继华.药用植物基因组学研究进展[J].广东农业科学,2021,48(12):138-150. 被引量：7
7李中浤,杜彩丽,林彦锋,张列宇,李晓光,黎佳茜,陈素华.纳米孔测序技术在环境微生物研究中的应用[J].生物工程学报,2022,38(1):5-13. 被引量：4
8李建英,陈勇,陈美平,周志国,伍勇,黄维亮.新型冠状病毒Omicron变异株实验室检测方法及临床特征分析[J].中华检验医学杂志,2022,45(4):360-365. 被引量：6
9杨影,谢水莲,万绍贵,冷小敏.基于Cas9靶向富集的纳米孔高通量基因测序技术的应用进展[J].赣南医学院学报,2022,42(4):342-347. 被引量：1
10陈山川,闫汉,唐鹏,周硕,田荣,尹雅洁,梁丽媛,王德强,翁婷.固态纳米孔检测不同结构DNA分子[J].微纳电子技术,2022,59(7):702-709.

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2陈新周,王明珠,何丹,周慧,林方欣,李粉霞.微阵列比较基因组杂交技术与二代基因测序检测拷贝数变异的对比[J].分子诊断与治疗杂志,2016,8(6):385-388. 被引量：3
3李梦臻,张芃芃,郝京生,修贺明,管希云.基于纳米孔的DNA测序技术[J].国外医药（抗生素分册）,2017,38(3):125-128. 被引量：4
4高宁,刘博,杨德强,苏晓琳,王蒙,匡海学.转录组学在中药研究中的应用现状[J].化学工程师,2017,31(6):50-53. 被引量：8
5彭桂兰,陈嘉慧,荣丹箐.第四代测序技术[J].农村经济与科技,2017,28(10):112-112. 被引量：1
6付春鹏.DNA测序技术概述[J].生物学教学,2017,42(11):3-5. 被引量：3
7王丹,滕懿群,黄蓉.高通量测序在新生儿遗传性疾病诊治中的应用[J].浙江医学,2018,40(7):776-781. 被引量：2
8符东顺,何冠谛,付天岭,何腾兵.植物重金属抗性基因挖掘和作用机制研究进展[J].江苏农业科学,2018,46(10):18-23. 被引量：2
9方治伟,李论.SSR分型技术研究进展[J].生物化工,2018,4(1):118-121. 被引量：5
10苗参,崔泽实,王菲,王勇,魏敏杰.精准医学与技术驱动及医学模式创新[J].中国医学装备,2017,14(2):138-142. 被引量：11

1Yanxiao Feng,Yuechuan Zhang,Cuifeng Ying,Deqiang Wang,Chunlei Du.Corrigendum to Nanopore-based Fourth- generation DNA Sequencing Technology＇ [GPB 144 （2015）- GPB 13]1 （4-16）][J].Genomics, Proteomics & Bioinformatics,2015,13(6):383-383.
2WU JiaYan XIAO JingFa ZHANG RuoSi YU Jun.DNA sequencing leads to genomics progress in China[J].Science China(Life Sciences),2011,54(3):290-292. 被引量：4
3Zhen Gu,Yi-Lun Ying,Bing-Yong Yan,Hui-Feng Wang,Pin-Gang He,Yi-Tao Long.Exponentially modified Gaussian relevance to the distributions of translocation events in nanopore-based single molecule detection[J].Chinese Chemical Letters,2014,25(7):1029-1032. 被引量：1
4Eric W. Frey Ashton A. Gooding Sitara Wijeratne Ching-Hwa Kiang.Understanding the physics of DNA using nanoscale single-molecule manipulation[J].Frontiers in Biology,2012,7(5):576-581. 被引量：1
5艾霞.生物单分子技术及其在生命科学研究中的应用[J].留学生,2016,0(3X):238-238.
6WU GenSheng,ZHANG Yin,SI Wei,SHA JingJie,LIU Lei,CHEN YunFei.Integrated solid-state nanopore devices for third generation DNA sequencing[J].Science China(Technological Sciences),2014,57(10):1925-1935. 被引量：4
7石万良,谢志雄,沈萍.原子力显微镜在微生物学领域的应用[J].微生物学通报,2004,31(1):109-113. 被引量：2
8周国华,曾效舒,余志核,刘焱,宋福康.碳纳米管预制块铸造法制备CNTs/AZ91复合材料研究[J].铸造,2011,60(11):1099-1102. 被引量：7
9LI Chunyan,XIAO Jing,JIANG Yonghou.Research Progress on the Large-scale Culture Technology of Mammalian Cells[J].Journal of Northeast Agricultural University(English Edition),2009,16(2):72-76.
10王宏斌,王金发,zsu.edu.cn.分子发动机研究进展[J].生物化学与生物物理进展,2000,27(3):265-269. 被引量：5

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Nanopore-based Fourth-generation DNA Sequencing Technology 被引量：15

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