Fast repair of deoxynucleotide radical cations by phenylpropanoid glycosides (PPGs) and their analogs

The repair effects on deoxynucleotide radical cations of phenylpropanoid glycosides (PPGs) and their analogs, isolated from a Chinese folk medicinal herb, were studied using the pulse radiolysis technique. The radical cations of deoxynucleotides were formed by the reaction of SO 4 − with deoxynucleo...

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Bibliographic Details
Published in:Biochimica et biophysica acta 1999-10, Vol.1472 (1), p.279-289
Main Authors: Shi, Yimin, Kang, Jiuhong, Lin, Weizheng, Fan, Potao, Jia, Zhongjian, Yao, Side, Wang, Wengfeng, Zheng, Rongliang
Format: Article
Language:English
Subjects:
Cations
Deoxynucleotide radical cation
Deoxyribonucleotides - chemistry
DNA damage
Drugs, Chinese Herbal - chemistry
Electron transfer
Glycosides - chemistry
Kinetics
Phenylpropanoid glycosides
Phenylpropionates - chemistry
Pulse radiolysis
Repair
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Summary:The repair effects on deoxynucleotide radical cations of phenylpropanoid glycosides (PPGs) and their analogs, isolated from a Chinese folk medicinal herb, were studied using the pulse radiolysis technique. The radical cations of deoxynucleotides were formed by the reaction of SO 4 − with deoxynucleotides. On pulse irradiation of a nitrogen saturated deoxynucleotide aqueous solution containing 20 mM K 2S 2O 8, 200 mM t-BuOH and one of the PPGs or their analogs, the transient absorption spectra of the radical cations of nucleotide decayed with the formation of those of the radical cation of PPGs or their analogs within several tens of microseconds after electron pulse irradiation. The result indicates that deoxynucleotide radical cations can be repaired by PPGs or their analogs. The rate constants of the repair reactions were determined to be 0.48–1.1×10 9, 0.64–1.80×10 9 and 2.12–4.4×10 9 M −1. s −1 for dAMP, dGMP and dCMP radical cations respectively. It is obvious that the rate constants of the repair reaction depend on the number of phenolic hydroxyl groups contained in the PPGs and their analogs. A deeper understanding of this new repair mechanism will undoubtedly help researchers design strategies to prevent and/or intervene more effective in free radical related diseases.
ISSN:0304-4165
0006-3002
1872-8006
DOI:10.1016/S0304-4165(99)00133-6