Jin-Xiang Chen

Publications (3)7.1 Total impact

• Article: Synthesis, characterization and potent DNA-cleaving activity of copper(II)-complexed berberine carboxylate.

  Jin-Xiang Chen, Wei-Er Lin, Ming-Zhen Chen, Chun-Qiong Zhou, Yan-Ling Lin, Ming Chen, Zhi-Hong Jiang, Wen-Hua Chen
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  ABSTRACT: 9-O-(4-carboxybenzyl)berberine (CBB) 1 was synthesized from the reaction of berberrubine with methyl 4-(bromomethyl)benzoate and subsequent hydrolysis. Its Cu(II) complex 2 was prepared from the reaction with Cu(NO(3))(2)·3H(2)O, and established as [Cu(CBB)(2)](NO(3))(2)·2H(2)O by means of (1)H NMR, UV, IR, elemental analysis and TGA measurements. Agarose gel electrophoresis study on the cleavage of plasmid pBR322 DNA indicated that complex 2 was capable of efficiently cleaving DNA under physiological conditions, most probably via an oxidative mechanistic pathway involving the formation of singlet oxygen as the reactive species. Kinetic assay afforded the maximal first-order rate constant k(max) of 2.41h(-1) and Michaelis constant K(M) of 2.64mM, respectively, representing ca. 10(8)-fold acceleration in the cleavage. This catalytic efficacy is attributed to the Cu(II)-assisted formation of dimeric species, in which the two berberine subunits cooperatively bind to DNA, whereas the carboxylate-coordinated Cu(II) moiety functions as the cleavage-active center.
  Bioorganic & medicinal chemistry letters 10/2012; · 2.65 Impact Factor
• Article: Facile synthesis of a dimeric dipyrrole-polyamide and synergetic DNA-cleaving activity of its Cu(II) complex.

  Chun-Qiong Zhou, Yan-Ling Lin, Jin-Xiang Chen, Lu-Sheng Wang, Na-Na Yang, Wei Zeng, Wen-Hua Chen
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  ABSTRACT: Inspired by the potent DNA-cleaving activity of the Cu(II) complex of monopyrrole-polyamide dimer 1 (i.e., 1@Cu(2+)), we designed a new dimeric dipyrrole-polyamide analog 2 with the aim to optimize the catalytic activities of the metal complexes of this type of polypyrrole-polyamides. Compound 2 was prepared in 50% yield from the reaction of 1-methyl-4-[(1-methyl-4-nitro-1H-pyrrole-2-carbonyl)-amino]-1H-pyrrole-2-carboxylic acid with 2,2'-(ethane-1,2-diylbis(oxy))diethanamine, and fully characterized on the basis of NMR ((1)H and (13)C), MS (ESI and HR) and IR. Spectrophotometric titration, ESI-MS and conductivity measurements indicated that compound 2 formed a 1:1 complex with Cu(2+) ion (i.e., 2@Cu(2+)). Agarose gel electrophoresis studies indicated that 2@Cu(2+) was capable of efficiently converting pBR322 DNA into open circular and linear forms under physiological conditions, most probably via an oxidative mechanism. Its overall catalytic activity was estimated to be at least 30-fold higher than that of 1@Cu(2+). The fact that the cleaving activities of these Cu(II) complexes parallel, exactly, their binding affinities, raises the possibility that the cleaving activities of polypyrrole-polyamide derivatives of the type can be regulated by the binding affinities.
  Bioorganic & medicinal chemistry letters 07/2012; 22(18):5853-6. · 2.65 Impact Factor
• Article: Synergetic DNA-cleaving activities of the metal complexes of a polyether-tethered pyrrole-polyamide dimer.

  Chun-Qiong Zhou, Yan-Ling Lin, Jin-Xiang Chen, Wen-Hua Chen
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  ABSTRACT: A simple polyether-tethered pyrrole-polyamide dimer 1 was synthesized in 50% yield from the reaction of 2,2,2-trichloro-1-(1-methyl-4-nitro-1H-pyrrol-2-yl)ethanone with 2,2'-[1,2-ethanediylbis(oxy)]bisethanamine, and fully characterized on the basis of ¹H- and ¹³C-NMR, MS, HR-MS, and IR data. Agarose gel-electrophoresis study of the cleavage of plasmid pBR322 DNA by the complexes of compound 1 with seven metal ions indicated that most of the metal complexes were capable of efficiently cleaving DNA at pH 7.0 and 37°. Among them, the Cu(II) complex exhibited the highest activity, with the maximal catalytic rate constant k(max) and Michaelis constant K(M) being 5.61 h⁻¹ and 7.30 mM, respectively. Spectroscopic, ESI-MS, ethidium-bromide (EB) displacement, and viscosity experiments indicated that compound 1 could form a 1 : 1 complex with Cu(II) ion, and that this complex showed moderate binding affinity toward calf-thymus DNA.
  Chemistry & Biodiversity 06/2012; 9(6):1125-32. · 1.80 Impact Factor