Warum Pentose‐ und nicht Hexose‐Nucleinsäuren??. Teil V. (Purin‐Purin)‐Basenpaarung in der homo‐DNS‐Reihe: Guanin, Isoguanin, 2,6‐Diaminopurin und Xanthin

Groebke, Katrin; Hunziker, Jürg; Fraser, W. Hamish; Peng, Ling; Diederichsen, Ulf; Zimmermann, Kaspar; Holzner, Armin; Leumann, Christian; Eschenmoser, Albert

doi:10.1002/hlca.19980810302

Cited by 93 publications

(63 citation statements)

References 135 publications

(99 reference statements)

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“…In our opinion, the possible participation of these tautomers in the interactions of iG should also be taken into consideration. The participation of the 2-oxo, N3-H, 6-amino tautomeric form (structure IV, Figure 4) in various base pairs involving iG was postulated by Eschenmoser and co-workers in order to explain the formation of complexes of various unnatural polynucleotides studied in their laboratory [32,33]. Isocytosine can exist in various tautomeric forms, however, the experimental and theoretical data are consistent with the fact that 1-substituted iC adopts the 2-amino-4-oxo form ( Figure 1A) in environments of intermediate to high polarity ( [31] and references cited therein).…”

Section: Discussionmentioning

confidence: 96%

“…We cannot exclude the participation of tautomers of iG, other than structures I and II (Figure 4), in its possible plenitude of interactions with natural and non-natural bases considered by the authors quoted above [30][31][32][33]. It is worth emphasizing that relevant experimental data on the structure of iG base-pairing are rather scarce [36], whereas the evaluations of the stability and geometry of base pairs are often just of a qualitative nature [31].…”

Section: Discussionmentioning

confidence: 98%

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Neighbouring bases in template influence base-pairing of isoguanine

Maciejewska

Lichota

Kuśmierek

2003

Biochemical Journal

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Assuming that the efficiency of the incorporation of 5-methyl-2h-deoxyisocytosine-5h triphosphate (dMiCTP) and dTTP opposite isoguanine (iG) is a measure of the proportion of the keto and enol tautomers of iG in the Thermus aquaticus DNA polymerase active centre, we studied the influence of temperature and iGneighbouring bases in the template on base-pairing of iG. On the basis of experiments with four sequences (3h-TXT-5h, 3h-GXG-5h, 3h-CXC-5h, 3h-CXT-5h, where X l iG) at 37, 50, 65 and 80 mC, we found that 3h-neighbours decrease the fraction of the keto tautomer in the order C G T, whereas temperature apparently does not influence the tautomeric equilibrium of iG. The variability of the ratio of incorporation of dMiCTP versus dTTP (5-20) primarily reflects the variability of K m values, since

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Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 98%

Neighbouring bases in template influence base-pairing of isoguanine

Maciejewska

Lichota

Kuśmierek

2003

Biochemical Journal

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“…[225] Recent calculations have confirmed that formation of isoG quartets and isoG pentamers depends on the size of the templating cation. [229] Since isoG and G are self-complementary, [230,231] it is also possible that G and isoG may be able to form mixed assemblies. [232] In addition to the ligand and the cation, the anion may also affect the self-assembly of lipophilic nucleosides.…”

Section: G-quartets and Isog Pentamersmentioning

confidence: 98%

G‐Quartets 40 Years Later: From 5′‐GMP to Molecular Biology and Supramolecular Chemistry

Davis¹

2004

Angew Chem Int Ed

1,531

525

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Molecular self-assembly is central to many processes in both biology and supramolecular chemistry. The G-quartet, a hydrogen-bonded macrocycle formed by cation-templated assembly of guanosine, was first identified in 1962 as the basis for the aggregation of 5'-guanosine monophosphate. We now know that many nucleosides, oligonucleotides, and synthetic derivatives form a rich array of functional G-quartets. The G-quartet surfaces in areas ranging from structural biology and medicinal chemistry to supramolecular chemistry and nanotechnology. This Review integrates and summarizes knowledge gained from these different areas, with emphasis on G-quartet structure, function, and molecular recognition.

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“…34,35 We therefore anticipated that no protection of the carbonyl in strH 5 would be required. Dimethoxytritylation of strH 5 provided the O5-protected derivative 28 (61%) that underwent phosphitylation at O3 using compound 29 and standard conditions to give the strH nucleoside phosphoramidite 30 (51%).…”

Section: Methodsmentioning

confidence: 99%

Preparation of pyridine-stretched 2'-deoxyhypoxanthosine phosphoramidite

Clayton¹,

Davis

et al. 2017

Arkivoc

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Pyridine-stretched 2′-deoxyhypoxanthosine (strH) phosphoramidite was prepared in eight steps from Hoffer's sugar (2′-deoxy-3,5-di-O-(p-toluoyl)--D-erythro-pentofuranosyl chloride). Improved synthesis of the Hoffer sugar was achieved without need for distillation or chromatographic separation of intermediates, or use of gaseous HCl. Conditions were optimised to provide a key nitrile intermediate for the preparation of strH whereby the cesium salt of 4(5)-nitroimidazole was glycosylated using Hoffer's sugar. The nitrile intermediate was also used to prepare pyridine-stretched 2′-deoxyadenosine (strA) and pyridine-stretched 2′-deoxy-2,6-diaminonebulamine (strD). Preliminary studies indicate that strH forms a stronger, size-expanded base pair with adenine compared with the Watson-Crick thymine-adenine base pair.

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Warum Pentose‐ und nicht Hexose‐Nucleinsäuren??. Teil V. (Purin‐Purin)‐Basenpaarung in der homo‐DNS‐Reihe: Guanin, Isoguanin, 2,6‐Diaminopurin und Xanthin

Cited by 93 publications

References 135 publications

Neighbouring bases in template influence base-pairing of isoguanine

Neighbouring bases in template influence base-pairing of isoguanine

G‐Quartets 40 Years Later: From 5′‐GMP to Molecular Biology and Supramolecular Chemistry

Preparation of pyridine-stretched 2'-deoxyhypoxanthosine phosphoramidite

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