2001
DOI: 10.1002/mrc.945
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Hydrogen bonding in complexes of adenosine and 4-thiouridine: a low-temperature NMR study

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Cited by 26 publications
(3 citation statements)
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“…As expected, the effect of the substitution of sulfur for oxygen in position 6 for G and position 4 for T and U on the conformation of single-strand molecules is small. Larger changes occur for double-strand DNA because of the significant weakening for the base pairing . This change makes the S donor or the N−S chelator more accessible to an eventual metal center coming from the major grove.…”
Section: Discussionmentioning
confidence: 99%
“…As expected, the effect of the substitution of sulfur for oxygen in position 6 for G and position 4 for T and U on the conformation of single-strand molecules is small. Larger changes occur for double-strand DNA because of the significant weakening for the base pairing . This change makes the S donor or the N−S chelator more accessible to an eventual metal center coming from the major grove.…”
Section: Discussionmentioning
confidence: 99%
“…Many theoretical and experimental investigations have been concerned with the stability of the N-HÁ Á ÁO and the N-HÁ Á ÁS hydrogen bonds, but no clear trend has emerged. Ab initio energy calculations (Š poner et al, 1997;Basilio Janke et al, 2001) and a study of the thermodynamics of RNA duplexes containing thiouridine (Testa et al, 1999) showed that a base pair connected by an N-HÁ Á ÁO hydrogen bond is more stable than that connected by an N-HÁ Á ÁS hydrogen bond. In the case of 2-thiouridine, the Watson-Crick base pair with adenine, which is connected by an N-HÁ Á ÁO hydrogen bond, is preferred over the wobble base pair with guanine, which is linked by an N-HÁ Á ÁS hydrogen bond.…”
Section: Commentmentioning
confidence: 99%
“…Understanding the H-bonding abilities of modified nucleobases is a key step in uncovering the biomolecular mechanisms of mutagenesis and damaged DNA recognition. Gas-phase MS, thermal denaturation of double-stranded NAs, microcalorimetry, and nuclear magnetic resonance (NMR) spectroscopy have been employed in studies of H-bonding interactions between nucleobases. NMR spectroscopy is considered the most powerful tool for providing information not only on complexation energies but also on the geometries of H-bonded complexes. ,, In addition to experimental studies, bonding interactions between nucleobases have been extensively studied using computational methods. …”
Section: Introductionmentioning
confidence: 99%