Stochastic Sensing of Polynucleotides Using Patterned Nanopores

被引：37

作者：

Cohen, Jack A. ^{[1
]}

Chaudhuri, Abhishek ^{[1
,2
]}

Golestanian, Ramin ^{[1
]}

机构：

[1] Univ Oxford, Rudolf Peierls Ctr Theoret Phys, Oxford OX1 3NP, England

[2] Univ Sheffield, Dept Biomed Sci, Sheffield S10 2TN, S Yorkshire, England

来源：

PHYSICAL REVIEW X | 2012年 / 2卷 / 02期

基金：

英国工程与自然科学研究理事会;

关键词：

SOLID-STATE NANOPORES; POLYMER TRANSLOCATION; DNA; DISCRIMINATION; MOLECULES; MEMBRANE; PORE; FABRICATION; SIMULATION; TRANSPORT;

D O I：

10.1103/PhysRevX.2.021002

中图分类号：

O4 [物理学];

学科分类号：

0702 ;

摘要：

The effect of the microscopic structure of a pore on polymer translocation is studied using Langevin dynamics simulation, and the consequence of introducing patterned stickiness inside the pore is investigated. It is found that the translocation process is extremely sensitive to the detailed structure of such patterns with faster than exponential dependence of translocation times on the stickiness of the pore. The stochastic nature of the translocation process leads to discernible differences between how polymers with different sequences go through specifically patterned pores. This notion is utilized to propose a stochastic sensing protocol for polynucleotides, and it is demonstrated that the method, which would be significantly faster than the existing methods, could be made arbitrarily robust.

引用

页数：13

共 50 条

[41] Discrimination of α-Thrombin and γ-Thrombin Using Aptamer-Functionalized Nanopore Sensing
Reynaud, Lucile
Bouchet-Spinelli, Aurelie
Janot, Jean-Marc
Buhot, Arnaud
Balme, Sebastien
Raillon, Camille
ANALYTICAL CHEMISTRY, 2021, 93 (22) : 7889 - 7897
[42] Push-Button Method To Create Nanopores Using a Tesla-Coil Lighter
Bandara, Y. M. Nuwan D. Y.
Karawdeniya, Buddini I.
Dwyer, Jason R.
ACS OMEGA, 2019, 4 (01): : 226 - 230
[43] Digitally encoded DNA nanostructures for multiplexed, single-molecule protein sensing with nanopores
Bell, Nicholas A. W.
Keyser, Ulrich F.
NATURE NANOTECHNOLOGY, 2016, 11 (07) : 645 - +
[44] Single molecule sensing with solid-state nanopores: novel materials, methods, and applications
Miles, Benjamin N.
Ivanov, Aleksandar P.
Wilson, Kerry A.
Dogan, Fatma
Japrung, Deanpen
Edel, Joshua B.
CHEMICAL SOCIETY REVIEWS, 2013, 42 (01) : 15 - 28
[45] Improving macromolecule crowding configurations in nanopores for protein sensing
Zheng, Fei
Li, Hongluan
Yang, Jun
Wang, Haiyan
Qin, Guangle
Chen, Dapeng
Sha, Jingjie
CHEMICAL COMMUNICATIONS, 2024, 60 (95) : 14097 - 14100
[46] Rapid Ultrasensitive Single Particle Surface-Enhanced Raman Spectroscopy Using Metallic Nanopores
Cecchini, Michael P.
Wiener, Aeneas
Turek, Vladimir A.
Chon, Hyangh
Lee, Sangyeop
Ivanov, Aleksandar P.
McComb, David W.
Choo, Jaebum
Albrecht, Tim
Maier, Stefan A.
Edel, Joshua B.
NANO LETTERS, 2013, 13 (10) : 4602 - 4609
[47] Selectively detecting attomolar concentrations of proteins using gold lined nanopores in a nanopore blockade sensor
Wu, Yanfang
Yao, Yin
Cheong, Soshan
Tilley, Richard D.
Gooding, J. Justin
CHEMICAL SCIENCE, 2020, 11 (46) : 12570 - 12579
[48] Computational Investigation of DNA Detection Using Graphene Nanopores
Sathe, Chaitanya
Zou, Xueqing
Leburton, Jean-Pierre
Schulten, Klaus
ACS NANO, 2011, 5 (11) : 8842 - 8851
[49] Programmable nano-reactors for stochastic sensing
Jia, Wendong
Hu, Chengzhen
Wang, Yuqin
Gu, Yuming
Qian, Guangrui
Du, Xiaoyu
Wang, Liying
Liu, Yao
Cao, Jiao
Zhang, Shanyu
Yan, Shuanghong
Zhang, Panke
Ma, Jing
Chen, Hong-Yuan
Huang, Shuo
NATURE COMMUNICATIONS, 2021, 12 (01)
[50] Detection of short ssDNA and dsDNA by current-voltage measurements using conical nanopores coated with Al2O3 by atomic layer deposition
Thangaraj, Vidhyadevi
Lepoitevin, Mathilde
Smietana, Michael
Balanzat, Emmanuel
Bechelany, Mikhael
Janot, Jean-Marc
Vasseur, Jean-Jacques
Subramanian, Sivanesan
Balme, Sebastien
MICROCHIMICA ACTA, 2016, 183 (03) : 1011 - 1017

← 1 2 3 4 5 →