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Journal of Biomolecular Structure and Dynamics Volume 15, 1997 - Issue 3
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Original Articles

D-2-Deoxyribose and D-Arabinose, but not D-Ribose, Stabilize the Cytosine Tetrad (i-DNA) Structure

S. Robidoux Department of Chemistry, McGill University, 801 Sherbrooke St. W., Montreal, QC, Canada, H3A 2K6
&
M. J. Damha Department of Chemistry, McGill University, 801 Sherbrooke St. W., Montreal, QC, Canada, H3A 2K6
Pages 529-535 | Received 21 Jun 1997, Published online: 21 May 2012

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M. J. Damha, A. M. Noronha, C. J. Wilds, J.-F. Trempe, A. Denisov, R. T. Pon & K. Gehring. (2001) PROPERTIES OF ARABINONUCLEIC ACIDS (ANA & 20′F-ANA): IMPLICATIONS FOR THE DESIGN OF ANTISENSE THERAPEUTICS THAT INVOKE RNASE H CLEAVAGE OF RNA. Nucleosides, Nucleotides & Nucleic Acids 20:4-7, pages 429-440.
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Articles from other publishers (21)

Francesca Greco, Maria Marzano, Andrea Patrizia Falanga, Monica Terracciano, Gennaro Piccialli, Giovanni Nicola Roviello, Stefano D'Errico, Nicola Borbone & Giorgia Oliviero. (2022) Cytosine-rich oligonucleotides incorporating a non-nucleotide loop: A further step towards the obtainment of physiologically stable i-motif DNA. International Journal of Biological Macromolecules 219, pages 626-636.
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Luke K. McKenzie, Roberto El-Khoury, James D. Thorpe, Masad J. Damha & Marcel Hollenstein. (2021) Recent progress in non-native nucleic acid modifications. Chemical Society Reviews 50:8, pages 5126-5164.
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Alexandre Devaux, Laureen Bonnat, Thomas Lavergne & Eric Defrancq. (2020) Access to a stabilized i -motif DNA structure through four successive ligation reactions on a cyclopeptide scaffold . Organic & Biomolecular Chemistry 18:32, pages 6394-6406.
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Hala Abou Assi, Miguel Garavís, Carlos González & Masad J Damha. (2018) i-Motif DNA: structural features and significance to cell biology. Nucleic Acids Research 46:16, pages 8038-8056.
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Vladimir B Tsvetkov, Timofei S Zatsepin, Evgeny S Belyaev, Yury I Kostyukevich, George V Shpakovski, Victor V Podgorsky, Galina E Pozmogova, Anna M Varizhuk & Andrey V Aralov. (2018) i-Clamp phenoxazine for the fine tuning of DNA i-motif stability. Nucleic Acids Research 46:6, pages 2751-2764.
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Hala Abou Assi, Yu Chen Lin, Israel Serrano, Carlos González & Masad J. Damha. (2018) Probing Synergistic Effects of DNA Methylation and 2′-β-Fluorination on i-Motif Stability. Chemistry - A European Journal 24:2, pages 471-477.
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Yawei Sun, Yanyun Ji, Dong Wang, Jiqian Wang & Dongsheng Liu. (2018) Stabilization of an intermolecular i-motif by lipid modification of cytosine-oligodeoxynucleotides. Organic & Biomolecular Chemistry 16:26, pages 4857-4863.
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Anna Aviñó, María Dellafiore, Raimundo Gargallo, Carlos González, Adolfo M. Iribarren, Javier Montserrat & Ramon Eritja. (2017) Stabilization of Telomeric I-Motif Structures by (2′ S )-2′-Deoxy-2′- C -Methylcytidine Residues . ChemBioChem 18:12, pages 1123-1128.
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B. Mir, X. Solés, C. González & N. Escaja. (2017) The effect of the neutral cytidine protonated analogue pseudoisocytidine on the stability of i-motif structures. Scientific Reports 7:1.
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Anna Dembska, Patrycja Bielecka & Bernard Juskowiak. (2017) pH-Sensing fluorescence oligonucleotide probes based on an i-motif scaffold: a review. Analytical Methods 9:43, pages 6092-6106.
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Hala Abou Assi, Robert W. HarknessVV, Nerea Martin-Pintado, Christopher J. Wilds, Ramón Campos-Olivas, Anthony K. Mittermaier, Carlos González & Masad J. Damha. (2016) Stabilization of i-motif structures by 2′-β-fluorination of DNA. Nucleic Acids Research 44:11, pages 4998-5009.
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Henry A. Day, Pavlos Pavlou & Zoë A.E. Waller. (2014) i-Motif DNA: Structure, stability and targeting with ligands. Bioorganic & Medicinal Chemistry 22:16, pages 4407-4418.
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S. Benabou, A. Aviñó, R. Eritja, C. González & R. Gargallo. (2014) Fundamental aspects of the nucleic acid i-motif structures. RSC Adv. 4:51, pages 26956-26980.
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Jonathan K Watts & Masad J Damha. (2008) 2′F-Arabinonucleic acids (2′F-ANA) — History, properties, and new frontiers. Canadian Journal of Chemistry 86:7, pages 641-656.
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Clare P. Fenna, Victoria J. Wilkinson, John R. P. Arnold, Richard Cosstick & Julie Fisher. (2008) The effect of 2′-fluorine substitutions on DNA i-motif conformation and stability. Chemical Communications:30, pages 3567.
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Frank Seela, Simone Budow & Peter Leonard. (2007) Oligonucleotides forming an i-motif: the pH-dependent assembly of individual strands and branched structures containing 2′-deoxy-5-propynylcytidine. Org. Biomol. Chem. 5:12, pages 1858-1872.
Crossref
John A. Brazier, Julie Fisher & Richard Cosstick. (2005) Stabilization of the DNA I‐Motif Structure by Incorporation of 3′‐ S ‐Phosphorothiolate Linkages . Angewandte Chemie International Edition 45:1, pages 114-117.
Crossref
John A. Brazier, Julie Fisher & Richard Cosstick. (2005) Stabilization of the DNA I‐Motif Structure by Incorporation of 3′‐ S ‐Phosphorothiolate Linkages . Angewandte Chemie 118:1, pages 120-123.
Crossref
K Snoussi, S Nonin-Lecomte & J.-L Leroy. (2001) The RNA i-motif. Journal of Molecular Biology 309:1, pages 139-153.
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Maurice Guéron & Jean-Louis Leroy. (2000) The i-motif in nucleic acids. Current Opinion in Structural Biology 10:3, pages 326-331.
Crossref
Ulf Diederichsen. (1999) Oligomere mit intercalierenden Cytosin-Cytosin+-Basenpaaren und Peptidrückgrat: Analoga des DNA-i-Motivs. Angewandte Chemie 110:16, pages 2395-2397.
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