用于生物和大气样本中臭氧的特定荧光探针。
Specific fluorogenic probes for ozone in biological and atmospheric samples.
机构信息
Department of Chemistry, University of Pittsburgh, 219 Parkman Avenue, Pittsburgh, Pennsylvania 15260, USA.
出版信息
Nat Chem. 2009 Jul;1(4):316-21. doi: 10.1038/nchem.240.
Abstract
Ozone exposure is a growing global health problem, especially in urban areas. While ozone in the stratosphere protects the earth from harmful ultraviolet light, tropospheric or ground-level ozone is toxic and can damage the respiratory tract. It has recently been shown that ozone may be produced endogenously in inflammation and antibacterial responses of the immune system; however, these results have sparked controversy owing to the use of a non-specific colorimetric probe. Here we report the synthesis of fluorescent molecular probes able to unambiguously detect ozone in both biological and atmospheric samples. Unlike other ozone-detection methods, in which interference from different reactive oxygen species is often a problem, these probes are ozone specific. Such probes will prove useful for the study of ozone in environmental science and biology, and so possibly provide some insight into the role of ozone in cells.
摘要
臭氧暴露是一个日益严重的全球健康问题,特别是在城市地区。虽然平流层中的臭氧可以保护地球免受有害的紫外线伤害,但对流层或地面臭氧是有毒的,会损害呼吸道。最近有研究表明,臭氧可能是在免疫系统的炎症和抗菌反应中内源性产生的;然而,由于使用了非特异性比色探针,这些结果引起了争议。在这里,我们报告了荧光分子探针的合成,该探针能够在生物和大气样本中明确检测臭氧。与其他臭氧检测方法不同,在这些方法中,来自不同活性氧物质的干扰通常是一个问题,而这些探针是臭氧特异性的。这些探针将有助于研究环境科学和生物学中的臭氧,因此可能会对臭氧在细胞中的作用有一些了解。
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