Predicting ultraviolet spectrum of single stranded and double stranded deoxyribonucleic acids
about
IDT SciTools: a suite for analysis and design of nucleic acid oligomersSynthesis and characterization of azo-guanidine based alcoholic media naked eye DNA sensorOptimal ultraviolet wavelength for in vivo photoacoustic imaging of cell nuclei.Deep ultraviolet mapping of intracellular protein and nucleic acid in femtograms per pixelMechanistic heterogeneity in site recognition by the structurally homologous DNA-binding domains of the ETS family transcription factors Ets-1 and PU.1.N-methylmesoporphyrin IX fluorescence as a reporter of strand orientation in guanine quadruplexesA simple and general method for determining the protein and nucleic acid content of viruses by UV absorbanceAccurate small and wide angle x-ray scattering profiles from atomic models of proteins and nucleic acids.Gastric microbiota is altered in oesophagitis and Barrett's oesophagus and further modified by proton pump inhibitors.Genetic Predisposition to Diabetic Nephropathy: Evidence for a Role of ACE (I/D) Gene Polymorphism in Type 2 Diabetic Population from Kutch RegionIsolation of human genomic DNA for genetic analysis from premature neonates: a comparison between newborn dried blood spots, whole blood and umbilical cord tissue.Predicting sites of ADAR editing in double-stranded RNA.Heterogeneous nuclear ribonucleoprotein K and nucleolin as transcriptional activators of the vascular endothelial growth factor promoter through interaction with secondary DNA structures.Biomolecular and structural analyses of cauliflower-like DNAs by ultraviolet, circular dichroism, and fluorescence spectroscopies in comparison with natural DNA.Non-enzymatic DNA cleavage reaction induced by 5-ethynyluracil in methylamine aqueous solution and application to DNA concatenationPhotoinduced interactions of two dirhodium complexes with d(GTCGAC)2 probed by 2D NOESY.Heterogeneous dynamics in DNA site discrimination by the structurally homologous DNA-binding domains of ETS-family transcription factorsDetermining the Locations of Ions and Water around DNA from X-Ray Scattering Measurements.Changes in the volume phase transition temperature of hydrogels for detection of the DNA hybridization process.Nucleic-Acid-binding chromophores as efficient indicators of aptamer-target interactions.Design principles for rapid folding of knotted DNA nanostructuresSynapsable quadruplex-mediated fibersDimerization and DNA recognition rules of mithramycin and its analoguesBoth helix topology and counterion distribution contribute to the more effective charge screening in dsRNA compared with dsDNA.Differential sensitivity to methylated DNA by ETS-family transcription factors is intrinsically encoded in their DNA-binding domainsMechanism of strand-specific smooth muscle alpha-actin enhancer interaction by purine-rich element binding protein B (Purbeta).Nucleic acid protocols: Extraction and optimization.Fluorescent DNA nanotags featuring covalently attached intercalating dyes: synthesis, antibody conjugation, and intracellular imaging.Interaction of YOYO-1 with guanine-rich DNA.2,6-Bis(functionalized) purines as metal-ion-binding surrogate nucleobases that enhance hybridization with unmodified 2'-O-methyl oligoribonucleotides.Conformational Dynamics and the Binding of Specific and Nonspecific DNA by the Autoinhibited Transcription Factor Ets-1Distinct Roles for Interfacial Hydration in Site-Specific DNA Recognition by ETS-Family Transcription Factors.Effects of a protecting osmolyte on the ion atmosphere surrounding DNA duplexes.Association of Mbo I-RFLP at the Renin Locus (rs2368564) with Essential Hypertension.Nucleotide-type chemical shift assignment of the encapsulated 40 kbp dsDNA in intact bacteriophage T7 by MAS solid-state NMR.Covalent protein-oligonucleotide conjugates by copper-free click reaction.Pharmacologic efficacy of PU.1 inhibition by heterocyclic dications: a mechanistic analysis.Cooperativity in the annealing of DNA origamis.Controlling protein activity by dynamic recruitment on a supramolecular polymer platform.Structure and interaction of Corynebacterium pseudotuberculosis cold shock protein A with Y-box single-stranded DNA fragment.
P2860
Q24646200-7C239E04-822B-4AC0-ADE2-4B8FB4A60D32Q28585042-4B745431-F297-45EC-9DB6-05F2EC83ACB8Q30454843-75037111-6867-4861-B55A-4B529E33CD86Q33973747-D8D54BD6-C246-46DE-B7AC-C86D940D4DF6Q33985362-6EA3C7F0-34DB-4A58-AFDD-5D2FCBA702A5Q34178666-F7B6495F-9BFA-41A2-9B7A-253F170649E0Q34241011-966F648C-F6CB-44E5-8B2C-4EC5FEE1C0FCQ34427261-13493FD7-9851-402B-888E-3547B156AEE2Q35013649-196DF21A-A056-43E4-AF62-0E4CAC1A56D2Q35028043-390D77FE-69DA-4672-A059-E324B34361E5Q35028072-2E83AC18-325B-4253-A1EC-8FF0427D6573Q35039886-58D2C234-6706-474E-8859-2347F5430A8CQ35058320-959F7456-F8AF-4845-B03E-9AA5F791EA3AQ35062507-E6D6D755-A0AF-406A-9C4D-79C810341F00Q35125375-4F499FB3-5293-490A-A8A0-3FD101C052C8Q35147166-EE722D9C-9AA5-4C81-B581-2430BCA84BB9Q35562118-33DD41F8-A7FF-4530-8C2E-E4E24C4D43E8Q35666406-1DBDF6FB-78BB-4308-9A03-A4F599CA2F1AQ36099994-49B1E164-4C7C-47BC-9596-A040BDE27EBFQ36328830-9F91334C-C8DE-4CAF-A40A-97C01690CDCFQ36595694-9E65E5FB-39D9-4D70-BFDC-B5B6E4C86A78Q36847081-1EC68BBE-5F8F-4B13-8037-E901B6999B2DQ36921182-1148E7BB-B4E6-475D-9122-6BB80B49E953Q37259030-55495127-C622-4F4D-873F-C7306945492DQ37336912-6EC60F9B-383E-4D25-9D75-D0415F91C755Q37363001-00F1C320-7D98-4E56-8593-A942A3AF0A74Q37714829-A4445D4F-7D29-4391-A843-9A9FBDEDF73EQ38267577-2E38B6C8-55BF-48D7-8BB7-C1827AA9479EQ38314356-6EEBEFD9-3577-4F35-BB6C-E589D7325ABCQ38318858-35806CDA-2794-4C3E-8278-9B54CA328F6BQ39642594-F7C15C47-4DEC-4A26-875F-1F537A7E79AFQ41229186-33D3D1D1-8CD9-44EE-94C0-69BC5282AD04Q41342202-F6679E35-E90F-494B-A96F-A542B860C8B5Q41593862-A2D668B7-9056-44BB-A408-42ADDF3046C0Q41608328-AF672EDB-6EE8-4DF2-AB4A-6827A6C404FFQ41778658-A26205BB-4472-4AFE-A434-E05DAA68FDE0Q42565777-6996AB04-4FCD-4FA8-9A9E-C748F7D93E6FQ45825600-51420095-8E32-4BBA-8E56-F6FB4964B1CCQ47199857-0FAA2D6E-3893-486B-A8D8-A60DEDA48986Q47339176-F387584E-6B96-4530-9D78-4CC389244818
P2860
Predicting ultraviolet spectrum of single stranded and double stranded deoxyribonucleic acids
description
2008 nî lūn-bûn
@nan
2008 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մարտին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@ast
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@en
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@nl
type
label
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@ast
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@en
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@nl
prefLabel
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@ast
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@en
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@nl
P2093
P3181
P1476
Predicting ultraviolet spectru ...... tranded deoxyribonucleic acids
@en
P2093
Andrey V Tataurov
Richard Owczarzy
P3181
P356
10.1016/J.BPC.2007.12.004
P407
P577
2008-03-01T00:00:00Z