Unambiguous evaluation of the relative photolysis rates of nitro indolinyl protecting groups critical for brain network studies

Analytical Chemistry Research Pub Date : 2015-03-01 DOI:10.1016/j.ancr.2014.11.001

Richard L. Comitz , Yannick P. Ouedraogo , Nasri Nesnas

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引用次数: 5

Abstract

Nitrated indolinyl photoprotecting groups are crucial tools extensively used in the study of neuronal signal transduction. Mononitrated photolabile protecting groups have been used effectively, however, recent advances in the introduction of a second nitro group have shown improvement in the photo efficiency of neurotransmitter (agonist) release, albeit, to varying extents, depending on the assessment methods employed. An unambiguous method is discussed based on Nuclear Magnetic Resonance (NMR), which is shown to be an effective technique in the relative overall rate comparison amongst varying nitrated protecting groups. Mononitrated and dinitrated photolabile protecting groups such as CDNI-Glu and MNI-Glu are used as an example to assess the relative value of adding a second nitro group in photoactive cage designs. Using this technique, it was shown that the second nitro group in CDNI systems enhances the overall relative rate of photocleavage by a factor of 5.8. This reported method can also be used to unambiguously determine relative rate of agonist photorelease.

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明确评价硝基吲哚啉保护基团的相对光解速率对脑网络研究至关重要

硝化吲哚基光保护基团是广泛应用于神经元信号转导研究的重要工具。单硝性光性保护基团已被有效地使用，然而，最近在引入第二硝基组方面的进展表明，神经递质(激动剂)释放的光效率有所改善，尽管程度不同，取决于所采用的评估方法。讨论了一种基于核磁共振(NMR)的明确方法，该方法被证明是一种有效的技术，可以在不同的硝化保护基团之间进行相对总体速率比较。以CDNI-Glu和MNI-Glu等单硝化和硝化光性保护基团为例，评价了在光活性笼设计中添加第二硝基的相对价值。利用该技术，结果表明，CDNI体系中的第二硝基将光裂解的总体相对速率提高了5.8倍。该方法也可用于明确确定激动剂的相对释光率。

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Analytical Chemistry Research

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