Hydrogen bonds of RNA are stronger than those of DNA, but NMR monitors only presence of methyl substituent in uracil/thymine.
about
Accurate energies of hydrogen bonded nucleic acid base pairs and triplets in tRNA tertiary interactions.Unexpected origins of the enhanced pairing affinity of 2'-fluoro-modified RNAQuantum chemical studies of nucleic acids: can we construct a bridge to the RNA structural biology and bioinformatics communities?Mg2+ binding and archaeosine modification stabilize the G15 C48 Levitt base pair in tRNAsMesoscopic model parametrization of hydrogen bonds and stacking interactions of RNA from melting temperatures.2'-Fluoro RNA shows increased Watson-Crick H-bonding strength and stacking relative to RNA: evidence from NMR and thermodynamic data.NMR diffusion and nuclear Overhauser investigation of the hydration properties of thymine: influence of the methyl group.N-H stretching excitations in adenosine-thymidine base pairs in solution: pair geometries, infrared line shapes, and ultrafast vibrational dynamics.Density functional theory with dispersion corrections for supramolecular structures, aggregates, and complexes of (bio)organic molecules.B-DNA Structure and Stability as Function of Nucleic Acid Composition: Dispersion-Corrected DFT Study of Dinucleoside Monophosphate Single and Double StrandsHalogen Bonding versus Hydrogen Bonding: A Molecular Orbital Perspective.Structural, electronic and energetic consequences of epigenetic cytosine modifications.Higher order structural effects stabilizing the reverse Watson-Crick Guanine-Cytosine base pair in functional RNAs.Inter- and intramolecular dispersion interactions.(1)H and (19)F spin-lattice relaxation and CH3 or CF3 reorientation in molecular solids containing both H and F atoms.The solvation, partitioning, hydrogen bonding, and dimerization of nucleotide bases: a multifaceted challenge for quantum chemistry.Chemical shifts in nucleic acids studied by density functional theory calculations and comparison with experiment.Origins of biological function in DNA and RNA hairpin loop motifs from replica exchange molecular dynamics simulation.Calculation of nuclear magnetic resonance shieldings using frozen-density embedding.Towards biochemically relevant QM computations on nucleic acids: controlled electronic structure geometry optimization of nucleic acid structural motifs using penalty restraint functions.How Does Mg2+ Modulate the RNA Folding Mechanism: A Case Study of the G:C W:W Trans Basepair.The influence of substituents and the environment on the NMR shielding constants of supramolecular complexes based on A–T and A–U base pairsDistributions of methyl group rotational barriers in polycrystalline organic solids
P2860
Q25257425-ABAB7ECA-3E7B-4AD9-98E0-029C7BD738C0Q27666384-967082D8-E5D0-49CE-911E-EE5A0E7F97D7Q28834147-CC5AE66B-F3AF-4CBE-9408-2F48D6EABE19Q29048148-0E8D555E-A1A3-4815-B23C-1E63045918E1Q30457533-CAEFE86B-10AB-4EB6-8219-680CE2009211Q30572953-F2DE766E-D044-4B98-934A-53EDE7BE2240Q31037000-E3A43EC4-2F19-4B5F-BA12-EC291F916608Q36627866-AA2BC7EA-851F-4006-A0D0-125DF5B3CE31Q36742088-AEDDCAFE-EAFF-4A7B-8D0B-9EF578B6D510Q37480461-C6391750-DE32-4835-942C-A8018EA1DC8BQ37580392-C96CD816-5D5F-4CCE-987E-E757A9D6766DQ40761531-79D0171B-074E-4439-92F9-ACE8C1E227FBQ41892822-19C25A07-D2D7-4677-992E-4F62F8F0C774Q43957483-40D06629-397C-4C32-A011-4E7A07A42588Q46203776-68ABCB9C-CCC4-4F3C-BD81-328A08D60D3DQ46783925-643B913C-FD74-40F4-948F-5E27E78D1B13Q47253720-77F73C68-049A-42D0-A9A8-3EE00DC1ED05Q49344294-02ECD1BC-CB6E-4992-9588-CFC59855CA65Q51928074-0CCE68D0-0D4C-4FF8-B1B9-F8573BA8649BQ53159431-AA16E4EE-3BCE-4F74-82BB-C77984094F1CQ53291736-7E4B7102-D987-44F0-9688-B66368FCD3D5Q56880562-BC41F6E7-BA09-4E0C-864B-4192A6052490Q57183574-40C89144-72F5-4A0E-8FC4-220A7C702242
P2860
Hydrogen bonds of RNA are stronger than those of DNA, but NMR monitors only presence of methyl substituent in uracil/thymine.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@en
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@nl
type
label
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@en
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@nl
prefLabel
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@en
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine.
@nl
P50
P356
P1476
Hydrogen bonds of RNA are stro ...... substituent in uracil/thymine
@en
P2093
Célia Fonseca Guerra
F Matthias Bickelhaupt
P304
16718-16719
P356
10.1021/JA045276B
P407
P577
2004-12-01T00:00:00Z