活性氧攻击诱导的胆红素化学发光。

H Watanabe, T Nagoshi, S Agatsuma, M Kobayashi, H Inaba
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引用次数: 6

摘要

胆红素的超弱化学发光(CL)发生在三重态氧的存在下,并被醛的加入所刺激。在没有醛的情况下,活性氧也能增强胆红素CL。活性氧清除剂对CL的抑制作用表明,添加的过氧化氢分解或黄嘌呤-黄嘌呤氧化酶反应产生的活性氧有助于胆红素分子的CL。然而,在甲醛存在下,单线态氧对CL的贡献消失了。这表明,至少在甲醛存在的情况下,通过二氧乙烷中间体的四吡啶键断裂或单线态氧氧化醛产生三重羰基与氯化反应无关。活性氧产生的CL的光谱与醛增强CL的光谱相同。我们提出过氧化氢(和/或氢氧化物)胆红素中间体的形成,而不是二氧乙烷,可能参与了胆红素分子的CL激发。
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Bilirubin chemiluminescence induced by the attack of active oxygen species.

Ultraweak chemiluminescence (CL) from bilirubin occurs in the presence of triplet oxygen and is stimulated by the addition of aldehydes. Active oxygen species also enhance bilirubin CL, in the absence of aldehydes. An inhibitory effect of active oxygen scavengers on the CL indicated that active oxygens generated from the decomposition of added hydrogen peroxide or from the xanthine-xanthine oxidase reaction contributed to the CL from bilirubin molecules. However, the contribution of singlet oxygen to the CL disappeared in the presence of formaldehyde. This suggested that the scission of tetrapyrrole bonds via a dioxetane intermediate or the production of triplet carbonyls from the oxidation of aldehydes by singlet oxygen was not involved in the CL, at least in the presence of formaldehyde. The spectrum of CL induced by the generation of active oxygen was the same as that from the aldehyde-enhanced CL reaction. We propose that the formation of a hydroperoxide (and/or hydroxide) bilirubin intermediate, but not a dioxetane, may be involved in the excitation of bilirubin molecules for CL.

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Bioluminescence: Methods and Protocols, Volume 2 Bioluminescence: Methods and Protocols, Volume 1 Luminous Fungi BACK MATTER Luminous Mollusca
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