生物系统中的单线态氧检测:用途与局限性。
Singlet oxygen detection in biological systems: Uses and limitations.
作者信息
Koh Eugene, Fluhr Robert
机构信息
a Department of Plant and Environmental Sciences , Weizmann Institute , Rehovot , Israel.
出版信息
Plant Signal Behav. 2016 Jul 2;11(7):e1192742. doi: 10.1080/15592324.2016.1192742.
Abstract
The study of singlet oxygen in biological systems is challenging in many ways. Singlet oxygen is a relatively unstable ephemeral molecule, and its properties make it highly reactive with many biomolecules, making it difficult to quantify accurately. Several methods have been developed to study this elusive molecule, but most studies thus far have focused on those conditions that produce relatively large amounts of singlet oxygen. However, the need for more sensitive methods is required as one begins to explore the levels of singlet oxygen required in signaling and regulatory processes. Here we discuss the various methods used in the study of singlet oxygen, and outline their uses and limitations.
摘要
在生物系统中对单线态氧的研究在许多方面都具有挑战性。单线态氧是一种相对不稳定的短暂存在的分子,其性质使其与许多生物分子具有高度反应性,难以进行准确量化。已经开发了几种方法来研究这种难以捉摸的分子,但迄今为止大多数研究都集中在那些产生相对大量单线态氧的条件上。然而,随着人们开始探索信号传导和调节过程中所需的单线态氧水平,需要更灵敏的方法。在这里,我们讨论了用于研究单线态氧的各种方法,并概述了它们的用途和局限性。
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