8‐Oxo‐7,8‐dihydroadenine and 8‐Oxo‐7,8‐dihydroadenosine—Chemistry, Structure, and Function in RNA and Their Presence in Natural Products and Potential Drug Derivatives

Choi, Yu Jung; Chang, Stephanie J.; Gibala, Krzysztof S.; Resendiz, Marino J. E.

doi:10.1002/chem.201605163

Cited by 11 publications

(6 citation statements)

References 118 publications

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“…In addition, 8-oxo-adenosine in a template leads to slow primer extension with U, whereas 8-oxo-guanosine in a template results in highly error prone primer extension. It is known that the 8-oxo-modified purine nucleotides have different proportions of glycosidic conformations ( syn vs. anti ) relative to their canonical counterparts (30). We believe that the poor primer extension observed for the 8-oxo purines may be a direct result of this conformational state.…”

Section: Discussionmentioning

confidence: 99%

“…The 8-oxo-purines, which arise from oxidative damage, tend to adopt a syn conformation and form Hoogsteen base pairs, which may also decrease copying fidelity (Fig. 1) (23, 24). It is reasonable to assume that prebiotic synthetic pathways that generate nucleotides may also yield intermediates and byproducts, or damage and decay products, that give rise to non-Watson–Crick base pairs.…”

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confidence: 99%

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Inosine, but none of the 8-oxo-purines, is a plausible component of a primordial version of RNA

Kim

O’Flaherty

Zhou

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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SignificanceThe RNA world hypothesis assumes the abiotic synthesis of nucleotides, as well as their participation in nonenzymatic RNA replication. Whereas prebiotic syntheses of the canonical purine nucleotides remain inefficient, a prebiotically plausible route to the 8-oxo-purines has been reported. Although these noncanonical purine nucleotides are known to engage in non-Watson–Crick pairing with their canonical purine counterparts, their behavior in nonenzymatic RNA copying has not been evaluated. Our study indicates that none of the 8-oxo-purines behaves as a suitable substrate for nonenzymatic RNA copying. However, inosine turns out to exhibit reasonable rates and fidelities in RNA copying reactions. We propose that inosine could have served as a surrogate for guanosine in the early emergence of life.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Inosine, but none of the 8-oxo-purines, is a plausible component of a primordial version of RNA

Kim

O’Flaherty

Zhou

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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“…The 8-oxo-A is known to be an intermediate of adenosine oxidation by xanthine oxidase ( Wyngaarden and Dunn, 1957 ), however, it was also identified by mass spectrometry in polyA after oxidative reactions ( Figure 2 ) ( Alexander et al, 1987 ). 8-oxo-A has been assumed to be a minor oxidized ribonucleoside relative to 8-oxo-G, since 8-oxo-dA was reported to be generated approximately one-tenth of 8-oxo-dG in DNA ( Frelon et al, 2000 ; Choi et al, 2017 ). However, it was reported that 8-oxo-A adduct was increased in the most affected brain regions of late stage AD compared to the age-matched control subjects while 8-oxo-G adduct was decreased ( Weidner et al, 2011 ).…”

Section: Rna Oxidative Modificationsmentioning

confidence: 99%

Oxidative Modifications of RNA and Its Potential Roles in Biosystem

Tanaka

Chock

2021

Front. Mol. Biosci.

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Elevated level of oxidized RNA was detected in vulnerable neurons in Alzheimer patients. Subsequently, several diseases and pathological conditions were reported to be associated with RNA oxidation. In addition to several oxidized derivatives, cross-linking and unique strand breaks are generated by RNA oxidation. With a premise that dysfunctional RNA mediated by oxidation is the pathogenetic molecular mechanism, intensive investigations have revealed the mechanism for translation errors, including premature termination, which gives rise to aberrant polypeptides. To this end, we and others revealed that mRNA oxidation could compromise its translational activity and fidelity. Under certain conditions, oxidized RNA can also induce several signaling pathways, to mediate inflammatory response and induce apoptosis. In this review, we focus on the oxidative modification of RNA and its resulting effect on protein synthesis as well as cell signaling. In addition, we will also discuss the potential roles of enzymatic oxidative modification of RNA in mediating cellular effects.

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“…The Dimroth rearrangement has been applied to the synthesis of N 6 -alkyladenines as several 8-oxoadenines [ 121 , 122 , 123 ], including simple purines as caissarone, 28 [ 34 , 120 , 123 ], and aplidiamine, 113 ( Scheme 3 ) [ 83 ]. The introduction of the carbonyl group at C8 to give 8-oxo derivatives, has been achieved by different oxidation procedures, as very well summarised recently by Resendiz et al [ 124 ] either on simple methylpurines or directly on nucleosides.…”

Section: Synthetic Approaches Towards the Natural Alkylpurines Andmentioning

confidence: 99%

Marine Alkylpurines: A Promising Group of Bioactive Marine Natural Products

et al. 2018

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Marine secondary metabolites with a purine motif in their structure are presented in this review. The alkylpurines are grouped according to the size of the alkyl substituents and their location on the purine ring. Aspects related to the marine source, chemical structure and biological properties are considered together with synthetic approaches towards the natural products and bioactive analogues. This review contributes to studies of structure–activity relationships for these metabolites and highlights the potential of the sea as a source of new lead compounds in diverse therapeutic fields.

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8‐Oxo‐7,8‐dihydroadenine and 8‐Oxo‐7,8‐dihydroadenosine—Chemistry, Structure, and Function in RNA and Their Presence in Natural Products and Potential Drug Derivatives

Cited by 11 publications

References 118 publications

Inosine, but none of the 8-oxo-purines, is a plausible component of a primordial version of RNA

Inosine, but none of the 8-oxo-purines, is a plausible component of a primordial version of RNA

Oxidative Modifications of RNA and Its Potential Roles in Biosystem

Marine Alkylpurines: A Promising Group of Bioactive Marine Natural Products

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