DNA confinement in nanochannels: physics and biological applications.
about
DNA Brushing Shoulders: Targeted Looping and Scanning of Large DNA Strands.How to get into that "room at the bottom".Convex lens-induced nanoscale templating.Nonequilibrium dynamics and ultraslow relaxation of confined DNA during viral packaging.Stretching of DNA confined in nanochannels with charged walls.Hydrodynamics of DNA confined in nanoslits and nanochannels.Fracture fabrication of a multi-scale channel device that efficiently captures and linearizes DNA from dilute solutions.Effects of Hfq on the conformation and compaction of DNA.A fast and scalable kymograph alignment algorithm for nanochannel-based optical DNA mappingsKirkwood diffusivity of long semiflexible chains in nanochannel confinement.Optical DNA mapping in nanofluidic devices: principles and applications.Experimental evidence of weak excluded volume effects for nanochannel confined DNA.Nanoscale squeezing in elastomeric nanochannels for single chromatin linearization.Finite-size corrections for confined polymers in the extended de Gennes regime.The Fluid Mechanics of Genome MappingMicro- and nanofluidic technologies for epigenetic profiling.Flow of DNA in micro/nanofluidics: From fundamentals to applicationsAmplified stretch of bottlebrush-coated DNA in nanofluidic channels.Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules.Fracture-based micro- and nanofabrication for biological applications.Interplay between chain stiffness and excluded volume of semiflexible polymers confined in nanochannels.Comparison of linear and ring DNA macromolecules moderately and strongly confined in nanochannels.Polymers under confinement: single polymers, how they interact, and as model chromosomes.Charged Polymers Transport under Applied Electric Fields in Periodic Channels.Exploring DNA-protein interactions on the single DNA molecule level using nanofluidic tools.Thermoplastic nanofluidic devices for biomedical applications.Wall depletion length of a channel-confined polymer.Model studies of the effects of intracellular crowding on nucleic acid interactions.Ion diffusion coefficient measurements in nanochannels at various concentrations.Waves of DNA: Propagating excitations in extended nanoconfined polymers.Mixed confinement regimes during equilibrium confinement spectroscopy of DNA.Single DNA molecule jamming and history-dependent dynamics during motor-driven viral packaging.DNA compaction by the bacteriophage protein Cox studied on the single DNA molecule level using nanofluidic channelsEffect of H-NS on the elongation and compaction of single DNA molecules in a nanospace.Topological events in single molecules of E. coli DNA confined in nanochannels.Extension of nanoconfined DNA: Quantitative comparison between experiment and theory.Entropic depletion of DNA in triangular nanochannels.A S-Layer Protein of Bacillus anthracis as a Building Block for Functional Protein Arrays by In Vitro Self-Assembly.Modeling the relaxation time of DNA confined in a nanochannel.Enhanced nanochannel translocation and localization of genomic DNA molecules using three-dimensional nanofunnels.
P2860
Q27301035-92E0BDA8-006C-4D21-9B10-48ECDE5255D5Q30587331-EB3AB2CE-1B1B-4675-B5FB-517A940BDD3AQ30587339-2B241BDD-6DDC-421B-A692-4CB518E6317EQ33767396-8B2DF2A3-FDB6-4AB2-B94B-C179AF6667DAQ34692298-D74948EC-DE04-45A6-9714-95F3AC41B443Q34808549-2CA9F68B-7A0A-4D75-9204-FBEFD306C53AQ35091449-76A77C55-64CC-4189-9220-C593634CA379Q35562122-8193A211-62C4-4B44-8329-040A99DBBABDQ35602432-082EEC1D-E701-4248-A164-D46057E05C64Q35826430-90FBD2E6-1F06-4AF5-9427-E8D57FE49AA2Q36252317-FE02BECA-14CD-420D-97B9-B0F25353B70AQ36351936-EAF341E4-7EFC-485F-8839-29C4086D35FFQ36466368-D3516552-49F5-493D-A663-3838FDB4493CQ36467740-2C7BC7CA-1548-4052-A149-7CF5809E34AAQ36802917-FF23982C-DCB6-40FF-B2CD-32B1B61C8404Q37085758-A7B792BA-CEE4-4A45-BCD7-BA2A0A16D29FQ37119828-73368679-C1C4-489E-A2FE-52453B11F5E1Q37271150-5A36592B-9309-4CE3-9682-5A2DB04A9049Q37604551-A4696A38-4DD1-4165-8E17-D8D43F95BF8CQ37679488-FB3F38CD-1E0D-45A6-8A12-36580641900AQ37688781-A7B9C8BB-8BBA-40DA-B358-ED7E205866C7Q38091495-37702B4F-AE3F-4574-90D1-61F94C82DD77Q38364717-0F4BBE32-609F-4972-BB84-5A0BD06C7E42Q38623121-5999DF97-2AF4-47E9-970F-5B563DB928B5Q38665259-B79CAF5C-BDAD-4388-A324-1525815303E6Q38778799-116A9F2C-B074-4CCC-B73B-624874F73FD0Q38905475-A603DDC2-8D79-4481-887D-DD549CEBBD23Q39000630-8897C842-408F-4117-A533-CADF8F7C5477Q39182133-C905A560-4D30-4E01-AF33-4361E1DD59ACQ39189996-E3FBEC3F-231A-4DC6-ADC1-12D03A6D1DF1Q40405732-D649CF2B-3ED9-4791-B942-E56586AAF3FEQ40615612-8BF0F8F7-6E36-4D0A-8F4E-0FD3AD092BC8Q40774783-0F3EA284-81F8-4409-86C1-A9718B98D153Q40884068-BFD3A047-3B31-4452-892B-9BFDA535963FQ40921444-E9EFC518-9B75-4533-9AE3-EB45BA5FC3B4Q40978662-F3C4D6EF-3170-4E0D-BF6C-068DF887CE92Q41077967-F3E06F2B-E328-4979-88E9-2FFFAECD0244Q41284343-9150A3A7-B620-4C96-838C-6C8FB4B0622DQ42037803-82A27F4B-8936-4BE4-B1F8-4EC24D5E671BQ42103198-50066D9B-43E1-43BC-A477-393279C93870
P2860
DNA confinement in nanochannels: physics and biological applications.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
DNA confinement in nanochannels: physics and biological applications.
@en
type
label
DNA confinement in nanochannels: physics and biological applications.
@en
prefLabel
DNA confinement in nanochannels: physics and biological applications.
@en
P356
P1476
DNA confinement in nanochannels: physics and biological applications
@en
P2093
Robert H Austin
Walter Reisner
P304
P356
10.1088/0034-4885/75/10/106601
P407
P577
2012-09-13T00:00:00Z