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N7-(carboxymethyl)guanine-Lithium Crystalline Complex: A Bioinspired Solid Electrolyte.The self-organizing fractal theory as a universal discovery method: the phenomenon of lifeIron-based redox switches in biology.Study on the Electric Conductivity of Ag-Doped DNA in Transverse DirectionComplex life forms may arise from electrical processes.Neil3 and NEIL1 DNA glycosylases remove oxidative damages from quadruplex DNA and exhibit preferences for lesions in the telomeric sequence context.Controlled DNA "damage" and repair in hypoxic signalingTo intercalate or semiintercalate, or both?DNA helicases associated with genetic instability, cancer, and aging.Promoter G-quadruplex sequences are targets for base oxidation and strand cleavage during hypoxia-induced transcriptionDNA charge transport within the cell.Non-randomized mtDNA damage after ionizing radiation via charge transport.Sum rules and determination of exciton coupling using absorption and circular dichroism spectra of biological polymers.Hypoxia-induced oxidative base modifications in the VEGF hypoxia-response element are associated with transcriptionally active nucleosomes.DNA-mediated redox signaling for transcriptional activation of SoxRDNA-mediated electrochemistry.Finding needles in DNA stacksSequence and conformation effects on ionization potential and charge distribution of homo-nucleobase stacks using M06-2X hybrid density functional theory calculations.Ion channels at the nucleus: electrophysiology meets the genome.Biological applications of hybrid quantum mechanics/molecular mechanics calculation.Organometallic compounds: an opportunity for chemical biology?The roles of extracellular DNA in the structural integrity of extracellular polymeric substance and bacterial biofilm development.A fluorescence aptasensor based on DNA charge transport for sensitive protein detection in serum.Double-stranded DNA stereoselectively promotes aggregation of amyloid-like fibrils and generates peptide/DNA matrices.Oxidatively activated DNA-modifying agents for selective cytotoxicity.Nature's Electric Potential: A Systematic Review of the Role of Bioelectricity in Wound Healing and Regenerative Processes in Animals, Humans, and Plants.Common mitochondrial DNA mutations generated through DNA-mediated charge transport.Mutants of the base excision repair glycosylase, endonuclease III: DNA charge transport as a first step in lesion detection.Ping-pong electron transfer through DNA.Metal Complexes for DNA-Mediated Charge Transport.Charge transport in DNA molecules: Cooperative interplay between the disordered base-pair channel and the ordered backbone.Photoinduced short-range electron transfer in DNA with fluorescent DNA bases: lessons from ethidium and thiazole orange as charge donors.The Oxidation State of [4Fe4S] Clusters Modulates the DNA-Binding Affinity of DNA Repair Proteins.8-Oxoguanine DNA glycosylase 1: Beyond repair of the oxidatively modified base lesions.Effect of solvation on the ionization of guanine nucleotide: A hybrid QM/EFP study.Efficient Long-Range Hole Transport Through G-Quadruplexes.8-cyclopropyl-2'-deoxyguanosine: a hole trap for DNA-mediated charge transport.Mechanically controlled quantum interference in individual π-stacked dimers.Electron transport in DNA initiated by diaminonaphthalene donors alternatively bound by non-covalent and covalent association.Multiplex fluorophore systems on DNA with new diverse fluorescence properties and ability to sense the hybridization dynamics.
P2860
Q27321498-DB12AC04-9304-46DA-863A-1B7EED491E11Q28740893-67391A74-C07D-47C0-B4ED-C8CE3E30AC55Q33741265-AEEB20E3-0D00-4BF0-8054-A9F7FA1A43CAQ33948344-5A073AD2-51D4-4190-9AD0-125022DD22E7Q34011695-AE5441AC-8150-4D6E-BF66-30404AEC20FEQ34362594-199EA56D-E9E8-4357-B5BF-68D505E81668Q34540578-1734059E-67C7-4B9A-808A-08D6FB6D93B1Q35470945-C314F07A-11D3-4CA5-9263-A277F309B43DQ35961526-2B0EC3C2-2311-4161-A197-300CAA8BBB26Q36040836-6926F921-443A-4982-AA55-302803A3CD5FQ36104463-7C2C5894-0F55-4953-B56C-8F33379AD37DQ36353072-D641C3FB-06E1-4A6E-B5E8-BFB67300B64CQ37079052-238267F7-51C1-4995-B64C-8F47851F4656Q37102906-33AE0A2E-0B67-4505-AD58-B9B3C1813E7EQ37304028-451444EB-F3E3-410A-AF2C-4CFEFA4B27DCQ37315953-23429B6C-C469-4591-B6CF-83F45E42879AQ37364168-C1F3B92B-1AFB-4644-BEC7-62FCC861A927Q37572788-A41E3BEB-9B81-48C0-9884-870D65BC2E48Q37735568-5C03C54F-1FD6-47F9-9BE9-0A6816B3B1C1Q38005678-68C160E3-6FEF-4B39-AD4B-2123BEB42EF5Q38012429-AB39083B-FEF4-476D-B8B7-F10E6C1ABEBFQ38163928-D0980518-683D-48E7-BA22-0EE64172FDC0Q38331553-B6D52805-1068-4246-B033-0BB31D72F608Q38950497-DA579183-B883-452E-AF1B-BD47D8BC6CADQ39581383-4B148995-FDC4-4975-885D-B846F39FB042Q41473396-7C71DCE0-9AAC-4539-83BF-C4E441A8826DQ41774162-98FD42B6-58BF-4D17-A68B-10357E3EC01BQ41973128-D0C44FF8-711E-439C-B3BF-0F11524600A2Q42561839-A57F8B88-E8CE-4234-9816-21AEAF6FEF0EQ42743208-325AC5C7-5D65-48FF-95D1-AB2FE3840CB8Q43109791-9673D1D6-E75F-40DD-B172-FEAE105D3E2AQ43213595-B70655C1-0E3D-48A6-9F7A-F56C775A351DQ46145452-98133AB6-C2D8-4700-88E0-3574DE3A28B3Q46254222-FF6066A1-FA9E-4911-A031-95977BE80441Q47707876-C2CAD512-752E-4138-957F-E9D2BD6B9034Q48132948-0E2FC626-ABB8-406F-ACF1-F50380090AF6Q51092049-52FA8D38-3279-47CC-9B76-0EC24FD483B4Q51095043-EBBCA8A7-BED7-457D-A62A-EFE60C9CC84BQ51760458-958EB9C9-F7E7-4B53-9106-DEBED2E1FA76Q53278776-A6720433-E2FD-442D-A05F-BBC058313020
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 17 March 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Biological contexts for DNA charge transport chemistry.
@en
Biological contexts for DNA charge transport chemistry.
@nl
type
label
Biological contexts for DNA charge transport chemistry.
@en
Biological contexts for DNA charge transport chemistry.
@nl
prefLabel
Biological contexts for DNA charge transport chemistry.
@en
Biological contexts for DNA charge transport chemistry.
@nl
P2093
P2860
P1476
Biological contexts for DNA charge transport chemistry.
@en
P2093
Amie K Boal
Edward J Merino
Jacqueline K Barton
P2860
P304
P356
10.1016/J.CBPA.2008.01.046
P577
2008-03-17T00:00:00Z