Resonance energy transfer-based fluorescent probes for Hg~(~(2+)), Cu~(~(2+)) and Fe~(~(2+))/Fe~(3+) ions

Naresh Kumar; Vandana Bhalla; Manoj Kumar

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Resonance energy transfer-based fluorescent probes for Hg~(~(2+)), Cu~(~(2+)) and Fe~(~(2+))/Fe~(3+) ions

机译：基于共振能量转移的Hg〜（〜（2 +）），Cu〜（〜（2+））和Fe〜（〜（2 +））/ Fe〜（3+）离子荧光探针

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Resonance energy transfer (RET) between donor-acceptor architecture is an important physical mechanism which is used enormously for the development of fluorescent probes. The unique advantage of RET is its ability to transfer energy non-radiatively between molecules over biologically relevant distances. The distance dependency of RET makes this approach suitable for bioanalysis such as distances between biomolecules and molecular level interactions, both in vitro and in vivo. In addition, RET is a proficient approach for the development of fluorescent probes with ratiometric measurements. In the recent years, resonance energy transfer has been extensively applied for the design of fluorescent sensors for different types of analytes such as metal ions, anions, reactive oxygen species and molecules of biological interest. In this review, our aim is to highlight the applications of resonance energy transfer mechanisms, i.e. F?rster or fluorescence resonance energy transfer (FRET) and through-bond energy transfer (TBET) for the development of fluorescent probes, mainly for Hg~(2+), Cu~(2+) and Fe~(2+)/Fe~(3+) ions.

机译：供体-受体结构之间的共振能量转移（RET）是一种重要的物理机制，在荧光探针的开发中被大量使用。 RET的独特优势在于其能够在生物学上相关距离内在分子之间非辐射地转移能量。 RET的距离依赖性使该方法适用于生物分析，例如体外和体内的生物分子之间的距离和分子水平的相互作用。此外，RET是通过比例测量开发荧光探针的有效方法。近年来，共振能量转移已广泛用于荧光传感器的设计，该传感器用于不同类型的分析物，例如金属离子，阴离子，活性氧和具有生物学意义的分子。在这篇综述中，我们的目的是强调共振能量转移机制的应用，即Fster或荧光共振能量转移（FRET）和键合能量转移（TBET）在开发荧光探针（主要用于汞）方面的应用。 2 +），Cu〜（2+）和Fe〜（2 +）/ Fe〜（3+）离子。

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《The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry》 |2014年第3期|共16页
作者
Naresh Kumar; Vandana Bhalla; Manoj Kumar;
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正文语种 eng
中图分类分析化学;
关键词
Resonance; transfer-based; donor-acceptor;

机译：共振;基于转移;供体-受体;

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1. Resonance energy transfer-based fluorescent probes for Hg~(~(2+)), Cu~(~(2+)) and Fe~(~(2+))/Fe~(3+) ions [J] . Naresh Kumar, Vandana Bhalla, Manoj Kumar The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry . 2014,第3期

机译：基于共振能量转移的Hg〜（〜（2 +）），Cu〜（〜（2+））和Fe〜（〜（2 +））/ Fe〜（3+）离子荧光探针
2. Probing the coordination properties of glutathione with transition metal ions (Cr~(2+),Mn~(2+), Fe~(2+), Co~(2+), Ni~(2+), Cu~(2+), Zn~(2+), Cd~(2+), Hg~(2+)) by density functional theory [J] . Jianhua Liu, Hongxia Liu, Yan Li, Journal of Biological Physics . 2014,第4期

机译：探讨谷胱甘肽与过渡金属离子（Cr〜（2 +），Mn〜（2 +），Fe〜（2 +），Co〜（2 +），Ni〜（2 +），Cu〜（2）的配位性能+），Zn〜（2 +），Cd〜（2 +），Hg〜（2+））
3. IR-absorption characteristics of Pb~(2+) -, Hg~(2+) -, Cd~(2+) -, AI~(3+) -, Fe~(3+) -, Cr~(3+) -, Zn~(2+) -, and Mn~(2+) - derivatives of Laterite Soil. [J] . S.K. De, Madan Singh, Arvind Singh Indian Journal of Agricultural Chemistry . 1996,第1a2期

机译：Pb〜（2+）-，Hg〜（2+）-，Cd〜（2+）-，AI〜（3+）-，Fe〜（3+）-，Cr〜（3+）的红外吸收特性）-，Zn〜（2+）-和Mn〜（2+）-红土土壤衍生物。
4. Effect of the pH on the Recovery of Al~(3+), Co~(2+), Cr~(3+), Cu~(2+), Fe~(3+), Mg~(2+), Mn~(2+), Ni~(2+) and Zn~(2+) by Purolite S950 [C] . Isadora Dias Perez, Monica M. Jimenez Correa, JorgeA.Soares Tenorio, Energy technology 2018: Carbon dioxide management and other technologies . 2018

机译：pH值对Al〜（3 +），Co〜（2 +），Cr〜（3 +），Cu〜（2 +），Fe〜（3 +），Mg〜（2+）， Purolite S950的Mn〜（2 +），Ni〜（2+）和Zn〜（2+）
5. Hg(2+) accumulation by genetically engineered Escherichia coli in batch and continuous-flow systems: Construction, characterization, and applicability to Hg(2+) bioremediation of contaminated environments. [D] . Chen, Shaolin. 1997

机译：Hg（2+）在分批和连续流系统中通过基因工程大肠杆菌积累：构造，表征和适用于Hg（2+）污染环境的生物修复。
6. Activation of Rac and Cdc42 Video Imaged by Fluorescent Resonance Energy Transfer-Based Single-Molecule Probes in the Membrane of Living Cells [O] . Reina E. Itoh, Kazuo Kurokawa, Yusuke Ohba, 2002

机译：基于荧光共振能量转移的单分子探针在活细胞膜中成像的Rac和Cdc42视频的激活。
7. Separation of Each Metal Ion from a Synthetic Leach Solution of Manganese Nodules with Two Components as (Mn²⁺, Cu²⁺), (Mn²⁺, Fe²⁺), (Fe³⁺, Cu²⁺), and (Ni²⁺, Co²⁺) [O] . Katsuyuki TAKAHASHI, Tatsuaki SEO, Terushisa KUMAZAWA, 1985

机译：将每种金属离子的合成浸出溶液分离有两种组分（Mn 2 + / sop>，Cu 2 + ），（Mn 2 + / sup>，fe 2 + ），（Fe 3 + ，cu 2 + ），（ni 2 + ，CO ^{2 + ）}

Resonance energy transfer-based fluorescent probes for Hg~(~(2+)), Cu~(~(2+)) and Fe~(~(2+))/Fe~(3+) ions

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