scholarly article | Q13442814 |
P819 | ADS bibcode | 1990PNAS...87.9436P |
P356 | DOI | 10.1073/PNAS.87.23.9436 |
P8608 | Fatcat ID | release_jcq3yj2zgzcbrmrxf7tnoqbx6a |
P932 | PMC publication ID | 55180 |
P698 | PubMed publication ID | 2251285 |
P5875 | ResearchGate publication ID | 20905357 |
P2093 | author name string | K J Breslauer | |
Y W Park | |||
P B Dervan | |||
G E Plum | |||
S F Singleton | |||
P2860 | cites work | Predicting DNA duplex stability from the base sequence | Q24629471 |
Triple-strand formation in the homopurine:homopyrimidine DNA oligonucleotides d(G-A)4 and d(T-C)4 | Q29392297 | ||
Sequence-specific binding and photocrosslinking of alpha and beta oligodeoxynucleotides to the major groove of DNA via triple-helix formation | Q33555435 | ||
Sequence-specific intercalating agents: intercalation at specific sequences on duplex DNA via major groove recognition by oligonucleotide-intercalator conjugates | Q34322400 | ||
Sequence-specific recognition and cleavage of duplex DNA via triple-helix formation by oligonucleotides covalently linked to a phenanthroline-copper chelate | Q34324756 | ||
Formation of the triple-stranded polynucleotide helix, poly(A.A.U) | Q34332276 | ||
Models of triple-stranded polynucleotides with optimised stereochemistry | Q36199886 | ||
Calculating thermodynamic data for transitions of any molecularity from equilibrium melting curves | Q36472087 | ||
Structural analysis of the (dA)10.2(dT)10 triple helix | Q37713566 | ||
Triple helix formation by oligopurine-oligopyrimidine DNA fragments. Electrophoretic and thermodynamic behavior | Q38340384 | ||
NMR studies of triple-strand formation from the homopurine-homopyrimidine deoxyribonucleotides d(GA)4 and d(TC)4. | Q38343598 | ||
Inhibition of DNA binding proteins by oligonucleotide-directed triple helix formation | Q38343811 | ||
Free energy of imperfect nucleic acid helices. II. Small hairpin loops | Q38361988 | ||
Topology and formation of triple-stranded H-DNA. | Q38612323 | ||
Complexes formed by (pyrimidine)n·(purine)nDNAs on lowering the pH are three-stranded | Q39277618 | ||
The chemistry and biology of unusual DNA structures adopted by oligopurine.oligopyrimidine sequences | Q39534434 | ||
Poly(pyrimidine) . poly(purine) synthetic DNAs containing 5-methylcytosine form stable triplexes at neutral pH | Q40461512 | ||
Site-specific inhibition of EcoRI restriction/modification enzymes by a DNA triple helix | Q40513596 | ||
DNA H form requires a homopurine-homopyrimidine mirror repeat. | Q41333032 | ||
Sequence-specific cleavage of double helical DNA by triple helix formation. | Q46000915 | ||
Structures for the polynucleotide complexes poly(dA) with poly (dT) and poly(dT) with poly(dA) with poly (dT). | Q52894352 | ||
Thermodynamic comparison of the base pairs formed by the carcinogenic lesion O6-methylguanine with reference both to Watson-Crick pairs and to mismatched pairs. | Q53514339 | ||
Studies on the formation of two- and three-stranded polyribonucleotides. | Q55037174 | ||
Specificity in formation of triple-stranded nucleic acid helical complexes: studies with agarose-linked polyribonucleotide affinity columns | Q68061013 | ||
Structures for Poly(U).poly(A).poly(U) Triple Stranded Polynucleotides | Q69025894 | ||
NMR studies of DNA (R+)n.(Y-)n.(Y+)n triple helices in solution: imino and amino proton markers of T.A.T and C.G.C+ base-triple formation | Q69804767 | ||
Physical and chemical characterization of two- and three-stranded adenine-thymine and adenine-uracil homopolymer complexes | Q71209527 | ||
Polynucleotides. 8. A spectral approach to the equilibria between polyriboadenylate and polyribouridylate and their complexes | Q71871608 | ||
Heats of the helix-coil transitions of the poly A-poly U complexes | Q72035157 | ||
Specificity of the three-stranded complex formation between double-stranded DNA and single-stranded RNA containing repeating nucleotide sequences | Q72326777 | ||
Heat of the reaction forming the three-stranded poly (A + 2U) complex | Q72721947 | ||
COMPLEX FORMATION BETWEEN POLYCYTIDYLIC ACID AND GUANINE OLIGONUCLEOTIDES | Q76850433 | ||
MULTISTRANDED DNA HOMOPOLYMER INTERACTIONS | Q76993230 | ||
P433 | issue | 23 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 9436-9440 | |
P577 | publication date | 1990-12-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Thermodynamic characterization of the stability and the melting behavior of a DNA triplex: a spectroscopic and calorimetric study | |
P478 | volume | 87 |
Q55326506 | (C2G4)n repeat expansion sequences from the C9orf72 gene form an unusual DNA higher-order structure in the pH range of 5-6. |
Q40395664 | 6-Oxocytidine a novel protonated C-base analogue for stable triple helix formation |
Q35666401 | A Temperature-Jump Optical Trap for Single-Molecule Manipulation. |
Q43974571 | A combinatorial approach toward DNA recognition |
Q34015246 | A molecular anchor for stabilizing triple-helical DNA |
Q35859306 | A study of oligonucleotide reassociation using large arrays of oligonucleotides synthesised on a glass support |
Q38294343 | An unusually stable purine(purine-pyrimidine) short triplex. The third strand stabilizes double-stranded DNA. |
Q38331066 | Analysis of promoter-specific repression by triple-helical DNA complexes in a eukaryotic cell-free transcription system |
Q38289304 | Characteristics of triplex-directed photoadduct formation by psoralen-linked oligodeoxynucleotides |
Q38309891 | Comparable stability of Hoogsteen and Watson-Crick base pairs in ionic liquid choline dihydrogen phosphate |
Q36660827 | Comparative spectroscopic, calorimetric, and computational studies of nucleic acid complexes with 2',5"-versus 3',5"-phosphodiester linkages |
Q37928936 | Conformational changes of non-B DNA. |
Q43664692 | Conformational diversity versus nucleic acid triplex stability, a combinatorial study |
Q30469423 | Conserved thermochemistry of guanosine nucleophile binding for structurally distinct group I ribozymes |
Q40707508 | DNA lesions. A thermodynamic perspective |
Q36691365 | DNA probes: applications of the principles of nucleic acid hybridization |
Q47111305 | Derivation of nearest-neighbor DNA parameters in magnesium from single molecule experiments. |
Q40395832 | Detection and kinetic studies of triplex formation by oligodeoxynucleotides using real-time biomolecular interaction analysis (BIA). |
Q41121288 | Development of antisense and antigene oligonucleotide analogs. |
Q28533181 | Dodecamer d-AGATCTAGATCT and a homologous hairpin form triplex in the presence of peptide REWER |
Q42370332 | Double-stranded DNA-templated cleavage of oligonucleotides containing a P3'->N5' linkage triggered by triplex formation: the effects of chemical modifications and remarkable enhancement in reactivity |
Q37114774 | Drug binding to higher ordered DNA structures: netropsin complexation with a nucleic acid triple helix |
Q35788240 | Effect of 5-methylcytosine on the stability of triple-stranded DNA--a thermodynamic study |
Q35164352 | Effect of DNA target sequence on triplex formation by oligo-2'-deoxy- and 2'-O-methylribonucleotides |
Q47741351 | Effect of dC → d(m5C) Substitutions on the Folding of Intramolecular Triplexes with Mixed TAT and C+GC Base Triplets |
Q38364168 | Effect of divalent cations and cytosine protonation on thermodynamic properties of intermolecular DNA double and triple helices |
Q35782199 | Effects of an abasic site on triple helix formation characterized by affinity cleaving |
Q38351741 | Ferrocene-oligonucleotide conjugates for electrochemical probing of DNA. |
Q40729667 | Fluorescent triplex-forming DNA oligonucleotides labeled with a thiazole orange dimer unit. |
Q36436740 | Formation of triple-helical structures by the 3'-end sequences of MALAT1 and MENβ noncoding RNAs |
Q46506386 | Highly stable DNA triplexes formed with cationic phosphoramidate pyrimidine alpha-oligonucleotides. |
Q39715479 | Hybridization properties of oligodeoxynucleotide pairs bridged by polyarginine peptides |
Q36476713 | Kinetics of the triplex-duplex transition in DNA |
Q35781037 | Ligand-induced formation of nucleic acid triple helices |
Q38312705 | Measuring motion on DNA by the type I restriction endonuclease EcoR124I using triplex displacement |
Q36871489 | Molecular recognition via triplex formation of mixed purine/pyrimidine DNA sequences using oligoTRIPs |
Q37599101 | Oligonucleotide-mediated triple helix formation using an N3-protonated deoxycytidine analog exhibiting pH-independent binding within the physiological range |
Q38301423 | Physico-chemical studies on DNA triplexes containing an alternate third strand with a non-nucleotide linker |
Q38297336 | Physicochemical studies of the d(G3T4G3)*d(G3A4G3).d(C3T4C3) triple helix |
Q40412730 | Polyamine-linked oligonucleotides for DNA triple helix formation |
Q37636004 | Prediction of the stability of DNA triplexes |
Q38287378 | Prospects for the therapeutic use of antigene oligonucleotides |
Q48150922 | Purine- and pyrimidine-triple helix forming oligonucleotides recognize qualitatively different target sites at the ribosomal DNA locus |
Q40230335 | Pyrimidine phosphorothioate oligonucleotides form triple-stranded helices and promote transcription inhibition. |
Q39192201 | QCM-based rupture force measurement as a tool to study DNA dehybridization and duplex stability |
Q34737039 | Recognition of duplex DNA by RNA polynucleotides |
Q34370538 | Replication fork stalling and checkpoint activation by a PKD1 locus mirror repeat polypurine-polypyrimidine (Pu-Py) tract. |
Q34982183 | Repression of bacteriophage promoters by DNA and RNA oligonucleotides |
Q35906089 | Sensitive and label-free biosensing of RNA with predicted secondary structures by a triplex affinity capture method |
Q38357204 | Sequence composition effects on the stabilities of triple helix formation by oligonucleotides containing N7-deoxyguanosine |
Q52970211 | Sequence-dependent stability of intramolecular DNA triple helices. |
Q35207045 | Single-stranded DNA catalyzes hybridization of PCR-products to microarray capture probes |
Q27730895 | Solution structure of a pyrimidine.purine.pyrimidine DNA triplex containing T.AT, C+.GC and G.TA triples |
Q36811352 | Solution structure of an antiparallel purine motif triplex containing a T.CG pyrimidine base triple |
Q37610713 | Specificity and stringency in DNA triplex formation |
Q67464150 | Stability and Properties of Double and Triple Helices: Dramatic Effects of RNA or DNA Backbone Composition |
Q41680421 | Stability and structure of model DNA triplexes and quadruplexes and their interactions with small ligands. |
Q32058634 | Stability of triple-helical poly(dT)-poly(dA)-poly(dT) DNA with counterions |
Q27001036 | Structure, stability and behaviour of nucleic acids in ionic liquids |
Q38346912 | Studies on formation and stability of the d[G(AG)5]* d[G(AG)5]. d[C(TC)5] and d[G(TG)5]* d[G(AG)5]. d[C(TC)5] triple helices |
Q61713944 | Synthesis of modified oligonucleotides containing 4-guanidino-2-pyrimidinone nucleobases |
Q37491614 | The contribution of DNA single-stranded order to the thermodynamics of duplex formation |
Q59171454 | Thermodynamic and conformational properties of DNA triplexes containing 3′,3′-phosphodiester bond |
Q39936205 | Thermodynamic and kinetic stability of intermolecular triple helices containing different proportions of C+·GC and T·AT triplets |
Q38333941 | Thermodynamic and kinetic studies of the formation of triple helices between purine-rich deoxyribo-oligonucleotides and the promoter region of the human c-src proto-oncogene |
Q36228430 | Toward site-specific, homogeneous and highly stable fluorescent silver nanoclusters fabrication on triplex DNA scaffolds |
Q37617821 | Triple helix formation inhibits transcription elongation in vitro |
Q46296248 | Triple helix structures: sequence dependence, flexibility and mismatch effects |
Q38330405 | Triple-helix formation and cooperative binding by oligodeoxynucleotides with a 3'-3' internucleotide junction |
Q38690677 | Triplex DNA Nanostructures: From Basic Properties to Applications |
Q34593052 | Triplex formation at physiological pH by 5-Me-dC-N4-(spermine) [X] oligodeoxynucleotides: non protonation of N3 in X of X*G:C triad and effect of base mismatch/ionic strength on triplex stabilities |
Q38353733 | Triplex formation with 2'-O,4'-C-ethylene-bridged nucleic acids (ENA) having C3'-endo conformation at physiological pH. |
Q47115322 | Triplex-quadruplex structural scaffold: a new binding structure of aptamer. |
Q38293305 | UV spectroscopic identification and thermodynamic analysis of protonated third strand deoxycytidine residues at neutrality in the triplex d(C+-T)6:[d(A-G)6d(C−-T)6]; evidence for a proton switch |
Q30538009 | Vibrational normal modes and dynamical stability of DNA triplex poly(dA). 2poly(dT): S-type structure is more stable and in better agreement with observations in solution |
Q56489834 | Warum pentose-und nicht hexose-nucleinsäuren? Teil III. Oligo(2′,3′-dideoxy-β-D-glucopyranosyl) nucleotide (‘homo-DNS’): Paarungesigenschaften |
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