Structure of the B-DNA decamer C-C-A-A-C-G-T-T-G-G and comparison with isomorphous decamers C-C-A-A-G-A-T-T-G-G and C-C-A-G-G-C-C-T-G-G
about
A coarse graining approach to determine nucleic acid structures from small angle neutron scattering profiles in solution.The Holliday junction in an inverted repeat DNA sequence: sequence effects on the structure of four-way junctionsCrystal structure of a B-DNA dodecamer containing inosine, d(CGCIAATTCGCG), at 2.4 A resolution and its comparison with other B-DNA dodecamersStructure of a DNA Repair Substrate Containing an Alkyl Interstrand Cross-Link at 1.65 Å Resolution † , ‡Signatures of Protein-DNA Recognition in Free DNA Binding SitesControl of DNA minor groove width and Fis protein binding by the purine 2-amino groupCrystal structure of a DNA decamer showing a novel pseudo four-way helix-helix junctionSequence-dependent effects in drug-DNA interaction: the crystal structure of Hoechst 33258 bound to the d(CGCAAATTTGCG)2 duplexCrystal structure of an oligonucleotide duplex containing G.G base pairs: influence of mispairing on DNA backbone conformationStructural Mechanism behind Distinct Efficiency of Oct4/Sox2 Proteins in Differentially Spaced DNA ComplexesQuantum chemical studies of nucleic acids: can we construct a bridge to the RNA structural biology and bioinformatics communities?The intrinsic mechanics of B-DNA in solution characterized by NMRSmall local variations in B-form DNA lead to a large variety of global geometries which can accommodate most DNA-binding protein motifsMolecular dynamic simulations of environment and sequence dependent DNA conformations: the development of the BMS nucleic acid force field and comparison with experimental results.Interresidue hydrogen bonding in a peptide nucleic acid.RNA heteroduplex.Oligonucleotide sequence motifs as nucleosome positioning signals.New insights into the structure of abasic DNA from molecular dynamics simulations.Base-base and deoxyribose-base stacking interactions in B-DNA and Z-DNA: a quantum-chemical study.A systematic method for studying the spatial distribution of water molecules around nucleic acid bases.Hydration of the DNA bases is localBinding studies of cationic thymidyl deoxyribonucleic guanidine to RNA homopolynucleotides.Analysis of local helix bending in crystal structures of DNA oligonucleotides and DNA-protein complexes.Hydration of the phosphate group in double-helical DNAIntrinsic conformational properties of deoxyribonucleosides: implicated role for cytosine in the equilibrium among the A, B, and Z forms of DNAMolecular dynamics simulations of the d(CCAACGTTGG)(2) decamer: influence of the crystal environment.Sequence-dependent folding of DNA three-way junctions.Ab initio conformational analysis of nucleic acid components: intrinsic energetic contributions to nucleic acid structure and dynamics.Ion distributions around left- and right-handed DNA and RNA duplexes: a comparative study.Crystal structures of oligonucleotides including the integrase processing site of the Moloney murine leukemia virus.DNA strand breaking by the hydroxyl radical is governed by the accessible surface areas of the hydrogen atoms of the DNA backbone.On the efficiency of hole and electron transfer from the hydration layer to DNA: An EPR study of crystalline DNA X-irradiated at 4 KThe influence of packing on free radical yields in solid-state DNA: film compared to lyophilized frozen solution.Molecular mechanics calculations of the riboacetal internucleotide linkage in double and triple helices.Design and synthesis of ribonucleic guanidine: a polycationic analog of RNA.The DNA and RNA sugar-phosphate backbone emerges as the key player. An overview of quantum-chemical, structural biology and simulation studies.DNA-interactions and nuclear localisation of the chromosomal HMG domain protein SSRP1 from maize.Structure of poly d(AI).poly d(CT) in two different packing arrangements.Dynamical change of mitochondrial DNA induced in the living cell by perturbing the electrochemical gradient.Local conformational variations observed in B-DNA crystals do not improve base stacking: computational analysis of base stacking in a d(CATGGGCCCATG)(2) B<-->A intermediate crystal structure.Sensitivity of NMR internucleotide distances to B-DNA conformation: underlying mechanics.
P2860
Q24817039-B7DC9501-5AA2-4EAE-A81B-C81B2230F974Q27622185-9E54EC5C-6DE3-474D-A67D-D5B9C6E07948Q27642165-1ACE1959-3EA0-4063-87F6-5E3B4A1E313EQ27644183-B3F1754A-EAEF-47B1-9A37-9B0FBCD81F60Q27653954-0C8C7645-B15F-438D-B20E-D024B25C3429Q27678077-911F642E-352A-463C-8C0F-CC2387087988Q27729299-6E28DACD-3A2E-47FF-B191-C774CEC963ADQ27729367-BD8C3F3D-48CC-4201-89D0-CB983F8FEEFCQ27732084-0CCC12E8-ED21-42AF-9FAA-3B719696A227Q28552687-91780862-8EB3-4B71-A8C4-92F0FDB01695Q28834147-6D9A25E3-8110-4531-8D35-8736B5EE1ECDQ28834499-33B7DF91-6B8E-49E2-83DE-406190DB62F3Q33434867-8A72B3E9-324B-4FB5-91D8-4740D3F83884Q33537644-59737252-CBD8-4CC9-9656-DA709745FCDBQ33568436-9E47FC6D-64E1-4549-96D3-DA99AAE626E9Q33598467-FA8BA24F-1FED-437D-9216-839979ECCAFEQ33617761-6E15DD69-98FF-4AF0-BADA-A238475ED201Q33906985-8E26A7D0-CCC2-41B4-8721-7141FC824E9BQ34020130-064A6783-238C-4A01-ABFC-6A7CBB62268CQ34047883-66E18F5E-C5AF-4B83-B2CA-5B1A877AE617Q34099147-92F336D2-973B-4624-949C-0785CCE43A6CQ34129678-597939DA-C6D2-41A2-A468-4C59A9AE8E80Q34169378-74ADC16A-486E-4518-AF04-3C1D3A577662Q34170676-E5F63E59-312C-4249-AF50-8F4994FDA8C3Q34172345-CDBE46B8-2D40-473D-98A9-928F3B467915Q34396209-CA9DA6CD-49B0-4CB5-A960-570C19F0F30BQ34561394-4BA6AC70-E5B9-44B5-8238-1713CF32C1A5Q34711836-4463CD29-E42B-49B0-B894-92BEDB5EAA35Q35130587-1106591F-225C-4D5F-B443-B3955F8DC380Q36275451-B0C1E9E8-104A-4899-B97F-882DA300BE26Q37038548-C537CBA3-8A24-4A4A-BF02-854BB2910D3EQ37464456-32C1A836-45EB-40A5-AAC0-859ECD349CDFQ37471998-FC8ED9BB-E936-440E-A62D-A188CCFBCDC8Q37636144-2B55485D-20D6-4BC1-A6A2-BB6C8A829F6AQ38052698-0C02DD9E-9774-438A-BA3A-151F02325C65Q38309751-39D7DD22-7E3D-4E07-903F-38E4891EB800Q38554694-62E42964-F95A-4D14-9FCA-EF8B567B53B0Q39435427-EC81E59D-A7DB-491B-A17F-4F652357C592Q39607602-C79611C7-7FE6-47E6-9F97-7CD9609ACA9CQ39721314-BD72DF97-D7BA-49D2-ADB8-57C53CF2901B
P2860
Structure of the B-DNA decamer C-C-A-A-C-G-T-T-G-G and comparison with isomorphous decamers C-C-A-A-G-A-T-T-G-G and C-C-A-G-G-C-C-T-G-G
description
1991 nî lūn-bûn
@nan
1991 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@ast
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@en
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@nl
type
label
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@ast
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@en
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@nl
prefLabel
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@ast
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@en
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@nl
P2093
P3181
P1476
Structure of the B-DNA decamer ...... -T-G-G and C-C-A-G-G-C-C-T-G-G
@en
P2093
R E Dickerson
P304
P3181
P356
10.1016/0022-2836(91)90619-H
P407
P577
1991-01-05T00:00:00Z