Triple-strand formation in the homopurine:homopyrimidine DNA oligonucleotides d(G-A)4 and d(T-C)4
about
The human insulin gene linked polymorphic region exhibits an altered DNA structurePyrimidine motif triple helix in the Kluyveromyces lactis telomerase RNA pseudoknot is essential for function in vivoTriple helices formed at oligopyrimidine*oligopurine sequences with base pair inversions: effect of a triplex-specific ligand on stability and selectivity.A novel FRET pair for detection of parallel DNA triplexes by the LightCyclerAbundant oligonucleotides common to most bacteria.Thermodynamic characterization of the stability and the melting behavior of a DNA triplex: a spectroscopic and calorimetric study.Binding of Two Different DNA Sequences by Conformational Switching.Recognition of Single-Stranded Nucleic Acids by Triplex Formation: The Binding of Pyrimidine-Rich Sequences.Proton NMR studies of 5'-d-(TC)(3) (CT)(3) (AG)(3)-3'--a paperclip triplex: the structural relevance of turns.Effect of third strand composition on the triple helix formation: purine versus pyrimidine oligodeoxynucleotidesExtension of the range of DNA sequences available for triple helix formation: stabilization of mismatched triplexes by acridine-containing oligonucleotides.A novel palindromic triple-stranded structure formed by homopyrimidine dodecamer d-CTTCTCCTCTTC and homopurine hexamer d-GAAGAG.NMR characterisation of a triple stranded complex formed by homo-purine and homo-pyrimidine DNA strands at 1:1 molar ratio and acidic pH.Local supercoil-stabilized DNA structures.The pH dependent configurations of the C.A mispair in DNAJoints formed by RecA protein from oligonucleotides and duplex DNA block initiation and elongation of transcription.Oligonucleotide inhibition of IL2R alpha mRNA transcription by promoter region collinear triplex formation in lymphocytesEffect of 5-methylcytosine on the stability of triple-stranded DNA--a thermodynamic study.Spectroscopic and calorimetric investigation on the DNA triplex formed by d(CTCTTCTTTCTTTTCTTTCTTCTC) and d(GAGAAGAAAGA) at acidic pHThermodynamics of triple helix formation: spectrophotometric studies on the d(A)10.2d(T)10 and d(C+3T4C+3).d(G3A4G3).d(C3T4C3) triple helices.Polypurine/polypyrimidine hairpins form a triple helix structure at low pHMung bean nuclease cleavage pattern at a polypurine.polypyrimidine sequence upstream from the mouse metallothionein-I gene.Ribozyme catalysis: not different, just worse.Paranemic structures of DNA and their role in DNA unwinding.Solution structure of a selectively 13C-labeled intramolecular DNA triplex.Triple-helix formation by oligonucleotides containing the three bases thymine, cytosine, and guanine.Solvent, pH, and Ionic Effects on the Binding of Single-Stranded DNA by Circular Oligodeoxynucleotides.Elucidation of the sequence-specific third-strand recognition of four Watson-Crick base pairs in a pyrimidine triple-helix motif: T.AT, C.GC, T.CG, and G.TA.Specificity and stringency in DNA triplex formation.Prediction of the stability of DNA triplexes.Structural analysis of the (dA)10.2(dT)10 triple helix.Prospects for the therapeutic use of antigene oligonucleotides.Characterization of the DNA triplex formed by d(TGGGTGGGTGGTTGGGTGGG) and a critical R.Y sequence located in the promoter of the murine Ki-ras proto-oncogene.UV spectroscopic identification and thermodynamic analysis of protonated third strand deoxycytidine residues at neutrality in the triplex d(C(+)-T)6:[d(A-G)6.d(C-T)6]; evidence for a proton switch.Physicochemical studies of the d(G3T4G3)*d(G3A4G3).d(C3T4C3) triple helix.Inhibition of T7 RNA polymerase transcription by phosphate and phosphorothioate triplex-forming oligonucleotides targeted to a R.Y site downstream from the promoter.Thermodynamic and kinetic analyses of DNA triplex formation: application of filter-binding assay.Sequence-specific DNA-triplex formation at imperfect homopurine-homopyrimidine sequences within a DNA plasmid.Strong binding of single-stranded DNA by stem-loop oligonucleotides.Comparison of the sequence-selective DNA binding by peptide dimers with covalent and noncovalent dimerization domains.
P2860
Q24630360-5333D4C8-ACA7-46DD-9578-CFBD4F6C4765Q27678680-DADDB134-B26D-4A94-9577-7F00FC0C1270Q32067541-3899CBE9-E94C-4F6C-8D40-2DC7FFF451E5Q33526693-502ED62F-44E8-4CF7-B66D-4540BAFBBC58Q33547471-B5FEEA1D-3CDB-4378-A79F-F318F1C95CFDQ33919380-3753AFE7-A1A3-4686-8705-4957374DE9AFQ34090368-67BD58FE-E473-47B5-B534-0FFA28C20A65Q34157286-046BF6CC-6353-48B3-8CDD-95646B946D3FQ34178132-BD2BF810-4203-454C-A44E-BCD044C9DC13Q34607483-F1852B9E-BA6F-408A-8B7F-3646BAEEC713Q34642183-DD74EA67-204C-4072-B542-86AC6B3214B6Q34668950-06FF590A-8CB8-4490-B5B5-E656C899408BQ34776720-079ED3DF-DB4D-4DF3-A550-30B6C63BB53AQ34922005-135CFAD7-CA53-4DA5-9F87-300B7DB5FACFQ35067803-09619474-0618-4115-9D4F-87DB763F52EFQ35071791-FB805DB4-20A0-4312-844E-F9C50B5AAB61Q35768725-8DF455B7-AB4F-41DA-999F-A8337FE1777AQ35788240-94E42A62-E69C-4300-BC53-73EF49EFE1CDQ35845869-1C1712C3-FFF2-40B0-90D8-7D1D8DEBE286Q35880225-9F68BC16-19E4-4246-BC6D-E9F64E93AE7CQ35888014-7F9A86A0-2FC8-4EFC-B8C8-6EFAA1171B68Q35919736-93991A91-8AD8-4226-B584-BBE832AB3FD3Q36116084-4EB339CF-AC76-4B2C-AEDF-4E054930B4DDQ36452129-D8AE471E-2314-4A07-98C3-77706B2AF12AQ36707353-1AF2055F-BE12-4163-A413-68DD73DD9C4EQ37202705-8F849CB0-7AD4-499B-836C-A5ADB4D9DE6CQ37404336-FF67B6BB-EC58-4CC5-9BC1-B197B93BADEDQ37599145-07E59780-18C0-4C2F-AF50-15B3EBC8C626Q37610713-BCC8B2C4-70F7-4F81-B9C8-EBAD430AFC5DQ37636004-DB835D4D-EB14-4752-B82D-48E5E6A21835Q37713566-D2596112-1E68-4083-8AA3-90F58B6A6A57Q38287378-E0B6CECC-0312-4339-8744-663F959D2935Q38292684-DE4C2115-3391-4C24-9E63-87DFE5C7979BQ38293305-533F4728-CD05-4FC2-B82C-DD3BE9211AEBQ38297336-1F415442-FA12-40AF-A24B-387FE253146FQ38301310-7C29ACE9-14F9-48C8-823A-F9425C50A0F4Q38315496-ED78DA7A-D2B7-4B30-AF4B-B8636809DC86Q38321225-4D7F5C17-2FD0-466F-989C-4D4B4ADEA4DEQ38327110-AD0EA577-A070-4A43-8FE5-ADFD30D64AC6Q38328682-FC740A22-1E00-4D27-9E28-C7587DC4429E
P2860
Triple-strand formation in the homopurine:homopyrimidine DNA oligonucleotides d(G-A)4 and d(T-C)4
description
1989 nî lūn-bûn
@nan
1989 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
name
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@ast
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@en
type
label
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@ast
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@en
prefLabel
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@ast
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@en
P356
P1433
P1476
Triple-strand formation in the ...... ucleotides d(G-A)4 and d(T-C)4
@en
P2093
Ponni Rajagopal
P2888
P304
P356
10.1038/339637A0
P407
P50
P577
1989-06-22T00:00:00Z
P6179
1049608727