Mapping the sensing spots of aerolysin for single oligonucleotides analysis C Cao, MY Li, N Cirauqui, YQ Wang, M Dal Peraro, H Tian, YT Long Nature communications 9 (1), 2823, 2018 | 72 | 2018 |
Identification of essential sensitive regions of the aerolysin nanopore for single oligonucleotide analysis YQ Wang, MY Li, H Qiu, C Cao, MB Wang, XY Wu, J Huang, YL Ying, ... Analytical chemistry 90 (13), 7790-7794, 2018 | 65 | 2018 |
Revisiting the origin of nanopore current blockage for volume difference sensing at the atomic level MY Li, YL Ying, J Yu, SC Liu, YQ Wang, S Li, YT Long Jacs Au 1 (7), 967-976, 2021 | 51 | 2021 |
Direct readout of single nucleobase variations in an oligonucleotide C Cao, J Yu, MY Li, YQ Wang, H Tian, YT Long Small 13 (44), 1702011, 2017 | 44 | 2017 |
T232K/K238Q aerolysin nanopore for mapping adjacent phosphorylation sites of a single tau peptide S Li, XY Wu, MY Li, SC Liu, YL Ying, YT Long Small Methods 4 (11), 2000014, 2020 | 39 | 2020 |
A lithium-ion-active aerolysin nanopore for effectively trapping long single-stranded DNA ZL Hu, MY Li, SC Liu, YL Ying, YT Long Chemical Science 10 (2), 354-358, 2019 | 38 | 2019 |
Measuring a frequency spectrum for single-molecule interactions with a confined nanopore SC Liu, MX Li, MY Li, YQ Wang, YL Ying, YJ Wan, YT Long Faraday Discussions 210, 87-99, 2018 | 35 | 2018 |
Learning shapelets for improving single-molecule nanopore sensing ZX Wei, YL Ying, MY Li, J Yang, JL Zhou, HF Wang, BY Yan, YT Long Analytical chemistry 91 (15), 10033-10039, 2019 | 32 | 2019 |
Direct quantification of damaged nucleotides in oligonucleotides using an aerolysin single molecule interface J Wang, MY Li, J Yang, YQ Wang, XY Wu, J Huang, YL Ying, YT Long ACS Central Science 6 (1), 76-82, 2020 | 29 | 2020 |
Protein nanopore reveals the renin–angiotensin system crosstalk with single-amino-acid resolution J Jiang, MY Li, XY Wu, YL Ying, HX Han, YT Long Nature Chemistry 15 (4), 578-586, 2023 | 25 | 2023 |
Revealing the transient conformations of a single flavin adenine dinucleotide using an aerolysin nanopore MY Li, YQ Wang, YL Ying, YT Long Chemical Science 10 (44), 10400-10404, 2019 | 24 | 2019 |
Dynamic chemistry interactions: Controlled single-entity electrochemistry SM Lu, MY Li, YT Long The Journal of Physical Chemistry Letters 13 (21), 4653-4659, 2022 | 22 | 2022 |
Is the volume exclusion model practicable for nanopore protein sequencing? MZ Huo, MY Li, YL Ying, YT Long Analytical Chemistry 93 (33), 11364-11369, 2021 | 20 | 2021 |
Diversified exploitation of aerolysin nanopore in single‐molecule sensing and protein sequencing SM Lu, XY Wu, MY Li, YL Ying, YT Long View 1 (4), 20200006, 2020 | 20 | 2020 |
Precise construction and tuning of an aerolysin single-biomolecule interface for single-molecule sensing XY Wu, MB Wang, YQ Wang, MY Li, YL Ying, J Huang, YT Long CCS Chemistry 1 (3), 304-312, 2019 | 18 | 2019 |
An engineered third electrostatic constriction of aerolysin to manipulate heterogeneously charged peptide transport H Niu, MY Li, YL Ying, YT Long Chemical science 13 (8), 2456-2461, 2022 | 15 | 2022 |
Unveiling the heterogenous dephosphorylation of DNA using an aerolysin nanopore MY Li, YL Ying, S Li, YQ Wang, XY Wu, YT Long ACS nano 14 (10), 12571-12578, 2020 | 15 | 2020 |
Single molecule study of hydrogen bond interactions between single oligonucleotide and aerolysin sensing interface MY Li, YQ Wang, Y Lu, YL Ying, YT Long Frontiers in chemistry 7, 528, 2019 | 14 | 2019 |
Direct sensing of single native RNA with a single-biomolecule interface of Aerolysin nanopore J Yang, YQ Wang, MY Li, YL Ying, YT Long Langmuir 34 (49), 14940-14945, 2018 | 14 | 2018 |
Aerolysin nanopore identification of single nucleotides using the AdaBoost model XJ Sui, MY Li, YL Ying, BY Yan, HF Wang, JL Zhou, Z Gu, YT Long Journal of Analysis and Testing 3, 134-139, 2019 | 12 | 2019 |