Telomere structure and stability: covalency in hydrogen bonds, not resonance assistance, causes cooperativity in guanine quartets. - Wikidata - wikimedia - TriplyDB

Telomere structure and stability: covalency in hydrogen bonds, not resonance assistance, causes cooperativity in guanine quartets.

Telomere structure and stability: covalency in hydrogen bonds, not resonance assistance, causes cooperativity in guanine quartets.

http://www.wikidata.org/entity/Q51518941

about

Molecular dynamics simulations of G-DNA and perspectives on the simulation of nucleic acid structures MoD-QM/MM Structural Refinement Method: Characterization of Hydrogen Bonding in the Oxytricha nova G-Quadruplex Computational understanding and experimental characterization of twice-as-smart quadruplex ligands as chemical sensors of bacterial nucleotide second messengers The Role of Aromaticity, Hybridization, Electrostatics, and Covalency in Resonance-Assisted Hydrogen Bonds of Adenine-Thymine (AT) Base Pairs and Their Mimics.Direct visualization of both DNA and RNA quadruplexes in human cells via an uncommon spectroscopic method B-DNA Structure and Stability as Function of Nucleic Acid Composition: Dispersion-Corrected DFT Study of Dinucleoside Monophosphate Single and Double Strands Mesoscopic model for DNA G-quadruplex unfolding.An atlas of RNA base pairs involving modified nucleobases with optimal geometries and accurate energies.Relative stability of different DNA guanine quadruplex stem topologies derived using large-scale quantum-chemical computations.Effects of the protonation state in the interaction of an HIV-1 reverse transcriptase (RT) amino acid, Lys101, and a non nucleoside RT inhibitor, GW420867X.Evidences for Cooperative Resonance-Assisted Hydrogen Bonds in Protein Secondary Structure Analogs.Theoretical investigation of macrodipoles in supramolecular columnar stackings.Supramolecular H-bonded porous networks at surfaces: exploiting primary and secondary interactions in a bi-component melamine-xanthine system.New tetrads formed by deprotonated guanosine molecules and stabilized by alkali earth metal cations, as studied by electrospray ionization mass spectrometry.Chemical shifts in nucleic acids studied by density functional theory calculations and comparison with experiment.Mixed guanine, adenine base quartets: possible roles of protons and metal ions in their stabilization.Modified Guanines as Constituents of Smart Ligands for Nucleic Acid Quadruplexes.Perspective: Found in translation: Quantum chemical tools for grasping non-covalent interactions.Nature of Intramolecular Resonance Assisted Hydrogen Bonding in Malonaldehyde and Its Saturated Analogue.Source of Cooperativity in Halogen-Bonded Haloamine Tetramers.Weak Supramolecular Interactions Governing Parallel and Antiparallel DNA Quadruplexes: Insights from Large-Scale Quantum Mechanics Analysis of Experimentally Derived Models.Cooperativity in the Self-Assembly of the Guanine Nucleobase into Quartet and Ribbon Structures on Surfaces.Insights into the self-assembly steps of cyanuric acid toward rosette motifs: a DFT study.The evaluation of 5-amino- and 5-hydroxyuracil derivatives as potential quadruplex-forming agents.Hydrogen-Bond Strength of CC and GG Pairs Determined by Steric Repulsion: Electrostatics and Charge Transfer Overruled.Implication of the solvent effect, metal ions and topology in the electronic structure and hydrogen bonding of human telomeric G-quadruplex DNA.Designing a New Class of Bases for Nucleic Acid Quadruplexes and Quadruplex-Active Ligands.The role of weak hydrogen and halogen bonding interactions in the assembly of a series of Hg(II) coordination polymers.The two faces of hydrogen-bond strength on triple AAA-DDD arrays.B-DNA structure and stability: the role of hydrogen bonding, π–π stacking interactions, twist-angle, and solvation Substituting CF2for O4′ in Components of Nucleic Acids: Towards Systems with Reduced Propensity to Form Abasic Lesions Exploring non-covalent interactions in guanine- and xanthine-based model DNA quadruplex structures: a comprehensive quantum chemical approach Tailoring the properties of quadruplex nucleobases for biological and nanomaterial applications

P2860

Q26997917-FF2442B2-3C7C-4967-9173-C7C666D18BA4 Q28816938-D12980DD-BC40-4ED2-A4F3-56D209179DAF Q28829064-D5E581FC-9A99-44F4-A697-FE8A042EE443 Q35908418-950E8CB4-B277-41B2-AD83-29891A84A7CD Q37185618-5F71D12E-CA99-4E12-9232-AEE1508FE60D Q37480461-A7C38E2F-9F50-4E81-89A5-335A224E4340 Q41717752-F1670F2F-AF49-47FE-B620-E91F9717DD03 Q41821468-4756EC2B-8E64-4CF7-BB50-BF47DEABC647 Q41957783-43680127-850E-4E0F-84FB-A0B8D3F7F4F9 Q42209969-B565BCDA-6603-4C40-B4E0-E11288F98453 Q42368077-D4FA7297-499D-480E-A186-7376D5E2052C Q43589564-6D5E117C-CD9F-436E-91C1-AFCFEC4BCDB0 Q43988453-A17066EA-7322-4F01-9277-54585BAE9ED6 Q46022194-BC1329CB-8CA2-4DB4-B1E4-10C8A9D6B775 Q47253720-533C9418-90B9-4A07-BCAD-90D5825EF6BF Q47568025-FFAB5842-1DDC-4FCA-9831-0D2A8F8A5FD0 Q48041585-EE259E9C-7D84-4A62-B87A-20C2D42E104F Q48042223-6A37654E-2F4B-4D48-BF11-38EE52301E6D Q48044516-3F4841DE-CDEE-4D46-B567-68F175BB71EE Q48044641-5592069C-DA2C-4DD9-A07D-FE45A496146F Q48046729-705B45F3-D474-4067-9DB8-F80FA49755EF Q48052706-0E4DF30D-001F-4BA2-AE38-120B5C99F15D Q48056027-C112870F-1116-44A3-95C9-C4C4E186EF94 Q48093867-4D20A674-0FFA-4106-93D1-38956D40B67F Q48171385-4C191CE6-5E0A-4F57-A71A-7BA413A5257B Q50608768-015FA5C3-A8FD-42F1-8D33-4EB47DEE85AC Q50970045-B761BFBC-B20A-45B8-8DC7-E878B6075E19 Q53605825-F2DD471B-84EF-42E0-9930-205B81606F86 Q54518970-C2B42491-5E06-464F-9013-07C736BB007E Q56880571-4A2989E5-9E6A-4107-AF51-44EAFB86EDFC Q57744764-0384D6A1-8AE1-4B8D-951E-AF3D39E5BFC2 Q57744778-C0CAC787-B84C-47F7-9F68-5439ACD40CE5 Q57744789-FA072A68-0352-4EED-AEEB-A056D01A81A2

P2860

Telomere structure and stability: covalency in hydrogen bonds, not resonance assistance, causes cooperativity in guanine quartets.

http://www.wikidata.org/entity/Q51518941

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年学术文章

@wuu

2011年学术文章

@zh

2011年学术文章

@zh-cn

2011年学术文章

@zh-hans

2011年学术文章

@zh-my

2011年学术文章

@zh-sg

2011年學術文章

@yue

2011年學術文章

@zh-hant

name

Telomere structure and stabili ...... erativity in guanine quartets.

@en

Telomere structure and stabili ...... erativity in guanine quartets.

@nl

type

label

Telomere structure and stabili ...... erativity in guanine quartets.

@en

Telomere structure and stabili ...... erativity in guanine quartets.

@nl

prefLabel

Telomere structure and stabili ...... erativity in guanine quartets.

@en

Telomere structure and stabili ...... erativity in guanine quartets.

@nl

P1433

Q51518941-6A323F55-010D-483D-8EA0-F31CE3C62CFA

P1476

Q51518941-1268894E-6AA6-40FC-BCE7-BEB54597D935

P2093

Q51518941-6B2664B7-89F1-4947-B0E9-A9EF7109B6A2

Q51518941-F3730262-5580-4CD3-A4A7-56791B7D9519

P2860

Q51518941-00D1C7E8-25C4-496D-9E07-8152CE12F962

Q51518941-0454598B-1425-4234-9CFF-B4C7C09D3CC9

Q51518941-0898B678-3B9C-47A3-AFA2-D9A4A5E99F47

Q51518941-13F65239-6B4B-41F1-BEED-B8DD22C012D9

Q51518941-144FD896-1E5B-40D4-867C-82A158A59CFE

Q51518941-16F32F4C-DD92-4C55-90EB-1AEA024FAFB0

Q51518941-1EFD3F68-1BE7-4132-8DD5-1B7D3C2F60B2

Q51518941-21D62350-3EE7-4030-BFB3-49932594690B

Q51518941-24B9021B-93DE-4BA0-B3AE-C86BBA29878C

Q51518941-2801D2D0-2E7A-49B4-AEEA-160A6A940290

P304

Q51518941-34117DEB-BAF2-46B2-99EC-84076548CD20

P31

Q51518941-05DD9393-D01F-4400-8BBE-E9366E885B43

P356

Q51518941-85AE7CA5-E7FA-4507-9774-1D130B5DF22B

P407

Q51518941-728FC876-FBA3-4DBA-8B51-BE086E645B44

P433

Q51518941-5BE10CAF-E0C4-4588-81B9-5E867B958127

P478

Q51518941-62332BA1-8645-4BA2-B7E0-05A20148CE41

P50

Q51518941-229EC67F-CA9E-4670-971A-9392B588F283

Q51518941-5302409F-5651-4482-B5B6-DC2F85802453

P577

Q51518941-3F283FBF-FF17-454A-BEC5-DE0EAA984A71

P698

Q51518941-7DA68DA9-0D5D-4BA3-ACC1-4E9BF84EA740

P356

P1433

Chemistry: A European Journal

P1476

Telomere structure and stabili ...... perativity in guanine quartets

@en

P2093

Gábor Paragi

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

Hester Zijlstra

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

P2860

Molecular Structure of Nucleic Acids: A Structure for Deoxyribose Nucleic Acid

Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density

Density-functional exchange-energy approximation with correct asymptotic behavior

Crystal structure of parallel quadruplexes from human telomeric DNA

Molecular Configuration in Sodium Thymonucleate

Molecular Structure of Nucleic Acids: Molecular Structure of Deoxypentose Nucleic Acids

Identification of a specific telomere terminal transferase activity in Tetrahymena extracts

COSMO: a new approach to dielectric screening in solvents with explicit expressions for the screening energy and its gradient

A telomeric sequence in the RNA of Tetrahymena telomerase required for telomere repeat synthesis

IR-UV double resonance spectroscopy of xanthine.

P304

12612-12622

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

P31

scholarly article

P356

10.1002/CHEM.201102234

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

P407

P433

45

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

P478

17

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

P50

Célia Fonseca Guerra

Friedrich Matthias Bickelhaupt

P577

2011-10-13T00:00:00Z

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

P698

21997949

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