Not so crystal clear: the structure of the human telomere G-quadruplex in solution differs from that present in a crystal
about
Quadruplex DNA: sequence, topology and structureThermal difference spectra: a specific signature for nucleic acid structures.Structure of the intramolecular human telomeric G-quadruplex in potassium solution: a novel adenine triple formationStructure of the Hybrid-2 type intramolecular human telomeric G-quadruplex in K+ solution: insights into structure polymorphism of the human telomeric sequenceStructure of two intramolecular G-quadruplexes formed by natural human telomere sequences in K+ solutionStructure of the Human Telomere in K + Solution: A Stable Basket-Type G-Quadruplex with Only Two G-Tetrad LayersSequence variant (CTAGGG)n in the human telomere favors a G-quadruplex structure containing a G{middle dot}C{middle dot}G{middle dot}C tetradA G-Rich Sequence within the c-kit Oncogene Promoter Forms a Parallel G-Quadruplex Having Asymmetric G-Tetrad DynamicsSolution and Solid-State Analysis of Binding of 13-Substituted Berberine Analogues to Human Telomeric G-quadruplexesIFI16 Preferentially Binds to DNA with Quadruplex Structure and Enhances DNA Quadruplex FormationMechanical unfolding of human telomere G-quadruplex DNA probed by integrated fluorescence and magnetic tweezers spectroscopy.A light scattering study of the interaction of fibroblast growth factor (FGF) with its receptorProcessing of G4 DNA by Dna2 helicase/nuclease and replication protein A (RPA) provides insights into the mechanism of Dna2/RPA substrate recognition.2-aminopurine as a probe for quadruplex loop structures.Characterization of a K+-induced conformational switch in a human telomeric DNA oligonucleotide using 2-aminopurine fluorescenceSingle molecule studies of physiologically relevant telomeric tails reveal POT1 mechanism for promoting G-quadruplex unfolding.Chemistry in human telomere biology: structure, function and targeting of telomere DNA/RNA.Emulsified BMVC derivative induced filtration for G-quadruplex DNA structural separationThe many twists and turns of DNA: template, telomere, tool, and target.Resolution and characterization of the structural polymorphism of a single quadruplex-forming sequence.N-methylmesoporphyrin IX fluorescence as a reporter of strand orientation in guanine quadruplexesSedimentation velocity ultracentrifugation analysis for hydrodynamic characterization of G-quadruplex structures.Engineering the quadruplex fold: nucleoside conformation determines both folding topology and molecularity in guanine quadruplexes.Human telomeric sequence forms a hybrid-type intramolecular G-quadruplex structure with mixed parallel/antiparallel strands in potassium solution.Effect of G-quadruplex polymorphism on the recognition of telomeric DNA by a metal complex.Characterization and use of an unprecedentedly bright and structurally non-perturbing fluorescent DNA base analogue.Structural dynamics of human telomeric G-quadruplex loops studied by molecular dynamics simulations.Conformation and stability of intramolecular telomeric G-quadruplexes: sequence effects in the loops.Structure-based drug design: from nucleic acid to membrane protein targets.Different loop arrangements of intramolecular human telomeric (3+1) G-quadruplexes in K+ solution.Highly fluorescent guanosine mimics for folding and energy transfer studiesLinkage of cation binding and folding in human telomeric quadruplex DNA.Investigation of spectral conversion of d(TTAGGG)4 and d(TTAGGG)13 upon potassium titration by a G-quadruplex recognizer BMVC molecule.NMR evaluation of ammonium ion movement within a unimolecular G-quadruplex in solution.Defining the mode, energetics and specificity with which a macrocyclic hexaoxazole binds to human telomeric G-quadruplex DNAG-quadruplex structure and stability illuminated by 2-aminopurine phasor plotsSeparation of Quadruplex Polymorphism in DNA Sequences by Reversed-Phase Chromatography.Solution formation of Holliday junctions in inverted-repeat DNA sequencesMolecular engineering of G-quadruplex ligands based on solvent effect of polyethylene glycol.Populated intermediates in the thermal unfolding of the human telomeric quadruplex.
P2860
Q22065978-55FE2B3F-76F0-4A0A-9429-E89A4A379C11Q24812851-3E046065-BC58-4505-9677-BF098E873F00Q27644282-6356D76D-7B81-48EB-914E-F57E2A1F94C8Q27646647-F6E60745-3B18-4A2F-B390-4A0130FB32BEQ27648514-601B114B-24D7-4332-B6EE-4D1E2CCB1728Q27654041-8009FEA4-3F6E-4517-8EE5-52E8BA81C825Q27657084-84A0B4B8-44A8-476E-99C3-D6DEEFC759DCQ27657150-208A93D0-8F5A-488D-BF8D-2309C460FA20Q27704001-A8A078BB-5A92-47EB-A672-CAB82C229A22Q28550195-909A10CE-B1E9-41EE-9E83-3864F7DA8F2BQ30536228-51BA3070-C37E-4B19-B65D-408BC454EC8AQ33321817-928419DB-40BA-4118-8B27-7EA58E849C92Q33348184-CEE57CF9-CD75-4D26-9458-57A77AA58169Q33518631-D871EFC5-76E9-4762-AC4E-1F7F192DE9ECQ33578315-1F7856EA-8D38-45A2-91A4-904CC0709A40Q33779906-9D9D28DF-FE5E-4FD1-AE58-4E47F55ACA83Q33814333-5ED26F66-4FDB-4F6F-859E-F1B5C82323FFQ33946180-828EDDA7-D45A-4037-953C-03597B6F1D4EQ34026169-65B29BCF-F33A-472A-8F7F-CE871E992203Q34058327-B15466C8-A2A6-4C60-ABE6-DBD81CA0812FQ34178666-F7B13908-452B-4B51-A15B-93941FF502ADQ34433869-FE9B6554-FF80-46D6-9C0A-BA851A68BC76Q34517512-CC70AE03-E981-4A34-8675-5733585B7C3DQ34623697-AB34E440-A8E9-4D84-A083-53CA36AF4F5FQ34629701-5BB7F626-F700-4308-A0BF-713B0376E5ABQ34713684-ADB00847-AF89-4D23-9092-36F0C507632FQ34949453-50592558-3DB4-4587-826E-1003F62BE068Q35075676-F6CB6D52-9FC4-43D0-BDBC-C0DE041767DCQ35127680-CB5BBAAF-F5B8-40A4-870B-4AAA243723D9Q35128115-33EF02D0-7CE1-4029-A259-E321D117874DQ35174724-F671A7D1-6EB4-4D41-B577-000E10D34D00Q35196327-4C7C336E-EE26-4D38-92CC-B9D97FBB910DQ35837360-9443FABE-E112-4A63-B5D4-F42D59096D3AQ35849964-9245EA85-2FCB-4E19-984E-CDEFF01B939BQ35865316-AC688E0E-B3DD-4F15-898B-9C5BABE3D387Q35956095-86E9D794-E1D7-4040-908E-48A9B01C9330Q36033796-DA9065E8-F42D-47AF-BBEA-1D628FACF9ACQ36082817-0A545ED1-C16B-450A-926B-F23165EEBB68Q36280620-16F1EE54-6F23-4EAB-BB82-5B522B55F3CAQ36337174-CCB59248-534C-46B4-93A4-29A086092C0B
P2860
Not so crystal clear: the structure of the human telomere G-quadruplex in solution differs from that present in a crystal
description
2005 nî lūn-bûn
@nan
2005 թուականին հրատարակուած գիտական յօդուած
@hyw
2005 թվականին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Not so crystal clear: the stru ...... from that present in a crystal
@ast
Not so crystal clear: the stru ...... from that present in a crystal
@en
Not so crystal clear: the stru ...... from that present in a crystal
@nl
type
label
Not so crystal clear: the stru ...... from that present in a crystal
@ast
Not so crystal clear: the stru ...... from that present in a crystal
@en
Not so crystal clear: the stru ...... from that present in a crystal
@nl
prefLabel
Not so crystal clear: the stru ...... from that present in a crystal
@ast
Not so crystal clear: the stru ...... from that present in a crystal
@en
Not so crystal clear: the stru ...... from that present in a crystal
@nl
P2093
P2860
P3181
P356
P1476
Not so crystal clear: the stru ...... from that present in a crystal
@en
P2093
John J Correia
John O Trent
P2860
P304
P3181
P356
10.1093/NAR/GKI782
P407
P577
2005-08-16T00:00:00Z