The Phenanthridine-modified Tyrosine Dipeptide

IF 0.7 4区 化学 Q4 CHEMISTRY, MULTIDISCIPLINARY Croatica Chemica Acta Pub Date : 2019-07-29 DOI:10.5562/CCA3542
Antonija Erben, J. Matić, N. Basarić, I. Piantanida
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引用次数: 2

Abstract

Dipeptide 4 containing two unnatural amino acids, a modified tyrosine and a phenanthridine derivative, was synthesized. Binding of the dipeptide to a series of polynucleotides including ct-DNA, poly A - poly U, poly (dAdT)2, poly dG - poly dC and poly (dGdC)2 was investigated by thermal denaturation experiments, fluorescence spectroscopy and circular dichroism. Thermal denaturation experiments indicated that dipeptide 4 at pH 5.0, when phenanthridine is protonated, stabilizes ds-DNA, whereas it destabilizes ds-RNA. At pH 7.0, when the phenanthridine is not protonated, effects of 4 to the polynucleotide melting temperatures are negligible. At pH 5.0, dipeptide 4 stabilized DNA double helices, and the changes in the CD spectra suggest different modes of binding to ds-DNA, most likely the intercalation to poly dG- poly dC and non-specific binding in grooves of other DNA polynucleotides. At variance to ds-DNA, addition of 4 destabilized ds-RNA against thermal denaturation and CD results suggest that addition of 4 probably induced dissociation of ds-RNA into ss-RNA strands due to preferred binding to ss-RNA. Thus, 4 is among very rare small molecules that stabilize ds-DNA but destabilize ds-RNA. However, fluorescence titrations with all polynucleotides at both pH values gave similar binding affinity (log Ka ≈ 5), indicating nonselective binding. Preliminary photochemical experiments suggest that dipeptide 4 reacts in the photochemical reaction, which affects polynucleotides chirality, presumably via quinone methide intermediates that alkylate DNA.
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菲咯啶修饰的酪氨酸二肽
合成了含有两种非天然氨基酸的二肽4,一种是修饰酪氨酸,另一种是菲衍生物。通过热变性实验、荧光光谱和圆二色性研究了二肽与一系列多核苷酸的结合,这些多核苷酸包括ct-DNA、poly-a-poly-U、poly(dAdT)2、poly-dG-poly-dC和poly(dGdC)2。热变性实验表明,当菲啶质子化时,pH 5.0下的二肽4稳定了ds-DNA,而不稳定了ds-RNA。在pH 7.0下,当菲没有质子化时,4对多核苷酸熔化温度的影响可以忽略不计。在pH 5.0时,二肽4稳定了DNA双螺旋,CD光谱的变化表明与ds-DNA的结合模式不同,最有可能是嵌入到poly-dG-poly-dC和在其他DNA多核苷酸的凹槽中非特异性结合。在与ds-DNA不同的情况下,添加4个不稳定的ds-RNA以对抗热变性和CD结果表明,添加4可能由于与ss-RNA的优选结合而诱导ds-RNA解离成ss-RNA链。因此,4是非常罕见的稳定ds-DNA但不稳定ds-RNA的小分子之一。然而,在两个pH值下用所有多核苷酸进行的荧光滴定给出了相似的结合亲和力(log Ka≈5),表明非选择性结合。初步光化学实验表明,二肽4在光化学反应中反应,这可能通过使DNA烷基化的醌甲酰胺中间体影响多核苷酸的手性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Croatica Chemica Acta
Croatica Chemica Acta 化学-化学综合
CiteScore
0.60
自引率
0.00%
发文量
3
审稿时长
18 months
期刊介绍: Croatica Chemica Acta (Croat. Chem. Acta, CCA), is an international journal of the Croatian Chemical Society publishing scientific articles of general interest to chemistry.
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