Nanopore-based sequencing and detection of nucleic acids.
about
Visual programming for next-generation sequencing data analyticsNanopore-based analysis of biochemical speciesHigh-bandwidth nanopore data analysis by using a modified hidden Markov model.An integrated system for optical and electrical detection of single molecules/particles inside a solid-state nanopore.α-Hemolysin nanopore studies reveal strong interactions between biogenic polyamines and DNA hairpins.Nanotechnology-based strategies for the detection and quantification of microRNA.Single molecule analysis by biological nanopore sensors.Reading polymers: sequencing of natural and synthetic macromolecules.Membrane-spanning DNA nanopores with cytotoxic effect.Single plasmonic nanoparticles as ultrasensitive sensors.Controlling the structure of sequence-defined poly(phosphodiester)s for optimal MS/MS reading of digital information.A Simple Post-Polymerization Modification Method for Controlling Side-Chain Information in Digital Polymers.Tailoring particle translocation via dielectrophoresis in pore channels.A rapid and sensitive detection of HBV DNA using a nanopore sensor.Role of outer surface probes for regulating ion gating of nanochannels.Defining the Field of Sequence-Controlled Polymers.Translocation of Precision Polymers through Biological Nanopores.Bioinspired smart asymmetric nanochannel membranes.Structural stability of the photo-responsive DNA duplexes containing one azobenzene via a confined pore.Direct Readout of Single Nucleobase Variations in an Oligonucleotide.Single antibody-antigen interactions monitored via transient ionic current recording using nanopore sensors.Importance of polyelectrolyte modification for rectifying the ionic current in conically shaped nanochannels.Electrokinetic Energy Conversion in Self-Assembled 2D Nanofluidic Channels with Janus Nanobuilding Blocks.Why does β-cyclodextrin prefer to bind nucleotides with an adenine base rather than other 2'-deoxyribonucleoside 5'-monophosphates?Dynamic Self-Assembly of Homogenous Microcyclic Structures Controlled by a Silver-Coated Nanopore.Characterization of DNA duplex unzipping through a sub-2 nm solid-state nanopore.Nanopore Event-Transduction Signal Stabilization for Wide pH Range under Extreme Chaotrope Conditions.Solid-State Nanopore.Temperature dependence of the translocation time of polymer through repulsive nanopores.Tiny protein detection using pressure through solid-state nanopores.Chiral recognition of L-tryptophan with beta-cyclodextrin-modified biomimetic single nanochannel.Single-molecule analysis of the self-assembly process facilitated by host-guest interactions.Eine einfache Methode der nachträglichen Modifizierung zur Kontrolle der Seitenketteninformation digitaler PolymereDefining the Field of Sequence-Controlled Polymers“Lesen” von Polymeren: Die Sequenzierung natürlicher und synthetischer MakromoleküleDistinct functional elements for outer-surface anti-interference and inner-wall ion gating of nanochannels
P2860
Q26749009-3943D360-3F50-427A-817A-3ED2B4D2D833Q26751324-EE092C2E-EC0E-42AE-9BA2-CA7BE46EF0B4Q31165522-376041FE-A3AF-4E8C-BB36-61F430864127Q35792918-1CD93A93-AEB3-4B63-8CD2-748A4DA8592CQ36920535-A10E9A2B-064D-48E9-8B71-7A59E4AAA53CQ38225714-55BC827D-D966-48B7-BFF5-FD8EF7408EEAQ38225896-EAB5A839-128F-4FC1-BBE0-F5A15D6D17A9Q38256769-8F612E9F-A148-41F9-945B-FC148E946B91Q38949841-F92F35FF-A557-4822-95C3-FE50AFD9A0BEQ39048099-67472B8E-142B-4A89-90B9-E19B7B44433CQ40467734-6345EC70-766C-468C-B4E5-6715F84C5E8FQ40469547-F85E795A-D775-40BF-9E9D-2E2592B0C069Q41762921-C26FC6EC-3E9F-4C0E-B21A-E55A8DD56D43Q42185755-304D033B-5BE5-46F7-888F-0D6A6A41005EQ47202090-17641E64-6C38-41BB-B471-0A92BA09ADC9Q47327916-1FFA8E42-6536-4DC8-8978-FB597567419FQ47587211-62AAE8C1-70F6-4D2F-8F9D-C86D4F661B1BQ47751920-E1057940-3168-4DF1-BE94-659368DA23A2Q47811100-811CA2DD-640C-4010-89F5-97DB55482AACQ47901310-A991075B-CC74-4DD0-B5DA-10B405A9FD17Q47909187-302BA457-3335-44B2-8F4D-CC02334E6707Q47986738-CCE26B6C-6721-43CF-B575-9AA937871CC1Q48041821-EF72D1BF-7B10-4890-89B6-62104FC67193Q48043185-23B8F8D2-2C2A-499B-B275-85BB1729F1B7Q48061535-062EF3B0-271D-4CCF-AC8D-0623C386374CQ48139870-D6E6ACB5-67CB-42A3-87B7-EBA78ED3F41DQ48623612-8260CF16-B924-4F8E-B881-F2328DB9801FQ49825917-D00A3F77-8D32-4591-B97F-CEDC8A33AE0BQ50522739-0383ED2C-84D0-4944-ACBD-DF924FC04BFFQ51052370-5B54803C-0ACF-4448-BC93-BA32B57F6A5DQ53634762-3B82F701-89AD-4ABE-BFE6-C19EE8EF1793Q54278522-3661217A-D4A5-406D-B428-088ED38AB311Q57752100-C62073EF-AF65-4CB4-A2DD-42BA8614710EQ57752120-E93080E3-E8E4-41EB-9369-D3383D2AAE6AQ57752237-9EFF9842-D07C-483D-86DC-9A60C03D5C24Q58569575-517DBD14-767D-4101-B2A9-CA89D503F306
P2860
Nanopore-based sequencing and detection of nucleic acids.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
Nanopore-based sequencing and detection of nucleic acids.
@en
type
label
Nanopore-based sequencing and detection of nucleic acids.
@en
prefLabel
Nanopore-based sequencing and detection of nucleic acids.
@en
P2093
P2860
P356
P1476
Nanopore-based sequencing and detection of nucleic acids.
@en
P2093
Junji Zhang
Yi-Lun Ying
Yi-Tao Long
P2860
P304
13154-13161
P356
10.1002/ANIE.201303529
P407
P577
2013-11-08T00:00:00Z