Ionic strength-dependent persistence lengths of single-stranded RNA and DNA. - Wikidata - wikimedia - TriplyDB

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

http://www.wikidata.org/entity/Q35735200

about

Global analysis of riboswitches by small-angle X-ray scattering and calorimetry Modeling Effects of RNA on Capsid Assembly Pathways via Coarse-Grained Stochastic Simulation Tracking in atomic detail the functional specializations in viral RecA helicases that occur during evolution Stacking in RNA: NMR of Four Tetramers Benchmark Molecular Dynamics Detection of 3'-end RNA uridylation with a protein nanopore.BIOPHYSICAL PROPERTIES OF NUCLEIC ACIDS AT SURFACES RELEVANT TO MICROARRAY PERFORMANCE.High-throughput single-molecule analysis of DNA-protein interactions by tethered particle motion.Synchrotron-based small-angle X-ray scattering of proteins in solution.Nanomanufacturing: A Perspective.Viral uncoating is directional: exit of the genomic RNA in a common cold virus starts with the poly-(A) tail at the 3'-end The impact of base stacking on the conformations and electrostatics of single-stranded DNA.Visualizing single-stranded nucleic acids in solution.Characterizing the lateral friction of nanoparticles on on-chip integrated black lipid membranes Theory and Modeling of RNA Structure and Interactions with Metal Ions and Small Molecules.A Coarse-Grained Model of Unstructured Single-Stranded DNA Derived from Atomistic Simulation and Single-Molecule Experiment.The separation between the 5'-3' ends in long RNA molecules is short and nearly constant Splicing of designer exons informs a biophysical model for exon definition The Sequence-Specific Cellular Uptake of Spherical Nucleic Acid Nanoparticle Conjugates.High-affinity RNA binding by a hyperthermophilic single-stranded DNA-binding protein Tuning RNA Flexibility with Helix Length and Junction Sequence.Predicting 3D Structure, Flexibility, and Stability of RNA Hairpins in Monovalent and Divalent Ion Solutions RNA as a stable polymer to build controllable and defined nanostructures for material and biomedical applications Effects of molecular size and surface hydrophobicity on oligonucleotide interfacial dynamics Nucleic acid structure characterization by small angle X-ray scattering (SAXS)The DbpA catalytic core unwinds double-helix substrates by directly loading on them Role of ion valence in the submillisecond collapse and folding of a small RNA domain.Single Molecule Hydrodynamic Separation Allows Sensitive and Quantitative Analysis of DNA Conformation and Binding Interactions in Free Solution DNA translocation by human uracil DNA glycosylase: the case of single-stranded DNA and clustered uracils.Quantifying the ion atmosphere of unfolded, single-stranded nucleic acids using equilibrium dialysis and single-molecule methods.Selection of DNA nanoparticles with preferential binding to aggregated protein target.Activation of PKR by short stem-loop RNAs containing single-stranded arms.DNA A-tracts are not curved in solutions containing high concentrations of monovalent cations.Crowders perturb the entropy of RNA energy landscapes to favor folding.Polyelectrolyte properties of single stranded DNA measured using SAXS and single-molecule FRET: Beyond the wormlike chain model.The snakelike chain character of unstructured RNA.Entropic stabilization of folded RNA in crowded solutions measured by SAXS.Periodic DNA patrolling underlies diverse functions of Pif1 on R-loops and G-rich DNA.Theoretical and computational studies of dendrimers as delivery vectors.Binding dynamics of a monomeric SSB protein to DNA: a single-molecule multi-process approach.Prostate-specific RNA aptamer: promising nucleic acid antibody-like cancer detection.

P2860

Q26998920-FC79167B-E1CD-4F08-929E-574A41F25D69 Q27342523-0BBF8671-8B21-4B07-BDC6-1FAB8FFBCCA6 Q27679541-10AD3DF9-3AFE-479D-83C4-EB5E49072D51 Q29299984-44007173-F74D-4705-9A4C-A8549D67C255 Q30153462-BCBC50BF-9811-4AD9-AC96-2B51BCAEBA5D Q30415150-FD23ADFD-7F19-47BF-A3B2-A18D24985B62 Q30518261-678570E9-1E2D-4191-B211-86F0209ADC45 Q30654818-B02061E9-2A03-4786-B14E-4CCB3DCE5A4C Q30775961-7F7B072A-4905-4446-9190-C6FCAEB9BFA7 Q31115290-652D7056-9DC2-4E69-9202-41F366A0B8EE Q33580487-473CE0BD-DEC6-439D-BF92-BB113EDB3CA3 Q33701558-0982B69D-2D6A-42BF-856F-4B3082B20A43 Q33714628-478889A6-30CB-4B68-A1ED-3B9674805330 Q33901748-6929C55C-AF7A-4B1A-87AE-6B01A3D7A964 Q34044968-06B86602-4721-43A3-97D3-230308591238 Q34712089-D8235593-864D-40EB-9127-106223D35EC3 Q35113616-F1C8ACF2-5501-412D-9B5A-B7B64679D2D8 Q36028957-328895C0-F71E-4F02-8694-BFD0ED4FEF55 Q36245957-05E945EE-9D83-4A5D-B7CE-76AA741A7B6B Q36426447-F7599A28-86E5-46B3-88B8-1B773DBCA666 Q36429548-F708AA91-F0B3-407C-9783-96311C8CFD86 Q36449335-7D6E004F-AE7C-4780-AA82-7C65264F7B17 Q36456620-5A49EB14-9AF2-41FB-86C0-3CF8993F61B9 Q36554805-A65100EC-51C2-4BCE-AF7A-FB4F9CF85A95 Q36566603-9FEDA7F4-E829-4211-A966-4EFD1C66DB9C Q36697486-07553205-3DEB-459B-AD35-C96AC244022A Q36742570-B908A05E-F84E-481A-B729-47C5C3F5516C Q36790722-E79A7EE3-3A7A-43E2-AA6F-F77945068A45 Q36870539-5A4EA69E-ED0C-4A9C-9295-49D141E71B4A Q36959018-79BFE8E2-2DA6-4920-92C8-69FE9E0EA813 Q37015864-689CBAAA-E6D3-4FEA-8374-6824388A6546 Q37056125-F2405974-C7DE-4592-84EB-B46E85815621 Q37170698-4D561287-3598-410D-BF6E-E1437CD8F59E Q37281496-BBC9D3CA-5BAB-4F86-84BE-F130835106AB Q37370026-80EE76C1-E3BC-406B-A455-B2C25F7E82B9 Q37401050-520F8BB4-8A3B-41D1-8C77-2FE1385AC461 Q37723592-6370EE2C-45EC-4A07-93F2-FBE503EC1772 Q38056805-676615A3-917F-4095-BF28-FF56F28956CF Q38295252-9C647FE2-23AA-4642-860C-0A14FD28C0E8 Q38297638-B5C4A0C7-21DB-4E0D-BC1F-C3B6389A1DAE

P2860

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

http://www.wikidata.org/entity/Q35735200

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

2011年论文

@zh

2011年论文

@zh-cn

name

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@ast

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@en

type

label

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@ast

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@en

prefLabel

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@ast

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@en

P1433

Q35735200-379D4B8E-A11D-4C6A-8C0D-068E85F99970

P1476

Q35735200-0E200DC6-9A53-44AD-8720-FBDC04185463

P2093

Q35735200-096FDAC5-2B07-40ED-8657-D7437FD84990

Q35735200-0BDE32F6-9066-4AB1-993B-B1F32CBE8890

Q35735200-147750B8-6A6E-4002-B956-E65EF89FA047

Q35735200-1F49A878-066F-4F34-94D2-8BB8D1D9AD3E

Q35735200-D72597AD-6281-4D37-8D7A-6B9E0B0761FF

Q35735200-DB1F6375-8DF0-43CD-8DCA-13ECBFA22E76

P2860

Q35735200-0611DE8E-354E-43B7-9C88-5BFC1C43875A

Q35735200-0C5E0EB4-2F8C-4D34-838D-50EC87B94D22

Q35735200-273F23AA-DDB6-4DCE-B9CB-17A518513706

Q35735200-304CC876-AD33-4ECB-B372-C6481302C332

Q35735200-3BA7F054-848E-4403-972F-4033573DD746

Q35735200-3C6CDD5E-C1FB-4EFD-9CA0-0C428F51F356

Q35735200-4B78E61E-81F2-4A9F-87ED-E6FB7B8009F2

Q35735200-5C3E654F-5F82-4924-8F49-28E5116FFD8C

Q35735200-5D19CD1D-0D29-42D4-81DA-9DE0B722995D

Q35735200-67AAD794-6423-4199-BE75-EDC03D4A2BFB

P304

Q35735200-4F64ED7E-D51A-409C-9208-F5C1D8925C1C

P31

Q35735200-D04CBC39-2F8A-40D4-B168-D0FACCA7ACBD

P356

Q35735200-298F7345-C46F-491C-8F91-0C7B01477BB9

P407

Q35735200-0A275E0F-5577-43B4-87FB-F27A4A00B65B

P433

Q35735200-1D0617E6-5DF2-4151-9A98-83BE57E843E0

P478

Q35735200-DC387F1B-CF3A-40F5-9E75-15445D98C7CD

P577

Q35735200-8DA9385C-1158-425C-820E-1166C34EB8A6

P5875

Q35735200-65E3C9C6-0496-4843-AA75-766A1CFC6311

P698

Q35735200-4C960FC2-00DB-4AE0-9FC1-1027B9831CC1

P932

Q35735200-FBB62F63-106E-415C-9640-7E228C0206C2

P356

PNAS.1119057109

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Ionic strength-dependent persistence lengths of single-stranded RNA and DNA.

@en

P2093

Huimin Chen

http://www.w3.org/2001/XMLSchema#string

Julie L Sutton

http://www.w3.org/2001/XMLSchema#string

Lois Pollack

http://www.w3.org/2001/XMLSchema#string

Steve P Meisburger

http://www.w3.org/2001/XMLSchema#string

Suzette A Pabit

http://www.w3.org/2001/XMLSchema#string

Watt W Webb

http://www.w3.org/2001/XMLSchema#string

P2860

Energy transfer: a spectroscopic ruler

Crystal structure of a group I ribozyme domain: principles of RNA packing

Ribozymes: a distinct class of metalloenzymes

Gene regulation by riboswitches

Control of memory formation through regulated expression of a CaMKII transgene

Computational exploration of mobile ion distributions around RNA duplex

RNA backbone is rotameric

Probing structural heterogeneities and fluctuations of nucleic acids and denatured proteins.

The initial step of DNA hairpin folding: a kinetic analysis using fluorescence correlation spectroscopy.

Polymer properties of polythymine as revealed by translational diffusion

P304

799-804

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.1119057109

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

109

http://www.w3.org/2001/XMLSchema#string

P577

2011-12-27T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51954340

http://www.w3.org/2001/XMLSchema#string

P698

22203973

http://www.w3.org/2001/XMLSchema#string

P932

3271905

http://www.w3.org/2001/XMLSchema#string