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本文引用的文献

1
Structural Insights into How Protein Environments Tune the Spectroscopic Properties of a Noncanonical Amino Acid Fluorophore.结构洞察:蛋白质环境如何调节非典型氨基酸荧光团的光谱性质。
Biochemistry. 2020 Sep 22;59(37):3401-3410. doi: 10.1021/acs.biochem.0c00474. Epub 2020 Sep 3.
2
A genetically encoded small-size fluorescent pair reveals allosteric conformational changes of G proteins upon its interaction with GPCRs by fluorescence lifetime based FRET.一种基因编码的小荧光对通过基于荧光寿命的 FRET 揭示了 G 蛋白与其与 GPCR 相互作用时的变构构象变化。
Chem Commun (Camb). 2020 Jun 25;56(51):6941-6944. doi: 10.1039/d0cc02691c.
3
An intrinsic FRET sensor of protein-ligand interactions.一种蛋白质-配体相互作用的固有 FRET 传感器。
Org Biomol Chem. 2020 Jun 7;18(21):4079-4084. doi: 10.1039/d0ob00793e. Epub 2020 May 19.
4
Genetically Encoded Fluorescent Amino Acid for Monitoring Protein Interactions through FRET.通过 FRET 监测蛋白质相互作用的基因编码荧光氨基酸。
Anal Chem. 2019 Dec 3;91(23):14936-14942. doi: 10.1021/acs.analchem.9b03305. Epub 2019 Nov 13.
5
Engineering a periplasmic binding protein for amino acid sensors with improved binding properties.设计一种具有改善结合特性的用于氨基酸传感器的周质结合蛋白。
Org Biomol Chem. 2017 Oct 25;15(41):8761-8769. doi: 10.1039/c7ob02165h.
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Designing logical codon reassignment - Expanding the chemistry in biology.设计逻辑密码子重新分配——拓展生物学中的化学
Chem Sci. 2015 Jan 1;6(1):50-69. doi: 10.1039/c4sc01534g. Epub 2014 Jul 14.
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At the Interface of Chemical and Biological Synthesis: An Expanded Genetic Code.化学合成与生物合成的交叉领域:扩展的遗传密码
Cold Spring Harb Perspect Biol. 2016 Sep 1;8(9):a023945. doi: 10.1101/cshperspect.a023945.
8
Short Hydrogen Bonds and Proton Delocalization in Green Fluorescent Protein (GFP).绿色荧光蛋白(GFP)中的短氢键和质子离域。
ACS Cent Sci. 2015 Jun 24;1(3):148-56. doi: 10.1021/acscentsci.5b00160. Epub 2015 Jun 5.
9
Biosynthesis of a Novel Glutamate Racemase Containing a Site-Specific 7-Hydroxycoumarin Amino Acid: Enzyme-Ligand Promiscuity Revealed at the Atomistic Level.一种含位点特异性7-羟基香豆素氨基酸的新型谷氨酸消旋酶的生物合成:在原子水平揭示的酶-配体混杂现象。
ACS Cent Sci. 2015 Oct 28;1(7):364-373. doi: 10.1021/acscentsci.5b00211. Epub 2015 Sep 18.
10
Efficient synthesis and in vivo incorporation of acridon-2-ylalanine, a fluorescent amino acid for lifetime and Förster resonance energy transfer/luminescence resonance energy transfer studies.用于寿命及Förster共振能量转移/发光共振能量转移研究的荧光氨基酸吖啶-2-基丙氨酸的高效合成及体内掺入。
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含荧光非天然氨基酸的蛋白质中配体结合导致光谱性质改变的结构起源。

Structural Origins of Altered Spectroscopic Properties upon Ligand Binding in Proteins Containing a Fluorescent Noncanonical Amino Acid.

出版信息

Biochemistry. 2021 Aug 31;60(34):2577-2585. doi: 10.1021/acs.biochem.1c00291. Epub 2021 Aug 20.

DOI:10.1021/acs.biochem.1c00291
PMID:34415744
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8879415/
Abstract

Fluorescent noncanonical amino acids (fNCAAs) could serve as starting points for the rational design of protein-based fluorescent sensors of biological activity. However, efforts toward this goal are likely hampered by a lack of atomic-level characterization of fNCAAs within proteins. Here, we describe the spectroscopic and structural characterization of five streptavidin mutants that contain the fNCAA l-(7-hydroxycoumarin-4-yl)ethylglycine (7-HCAA) at sites proximal to the binding site of its substrate, biotin. Many of the mutants exhibited altered fluorescence spectra in response to biotin binding, which included both increases and decreases in fluorescence intensity as well as red- or blue-shifted emission maxima. Structural data were also obtained for three of the five mutants. The crystal structures shed light on interactions between 7-HCAA and functional groups, contributed either by the protein or by the substrate, that may be responsible for the observed changes in the 7-HCAA spectra. These data could be used in future studies aimed at the rational design of fluorescent, protein-based sensors of small molecule binding or dissociation.

摘要

荧光非天然氨基酸(fNCAAs)可以作为合理设计基于蛋白质的生物活性荧光传感器的起点。然而,由于缺乏蛋白质中 fNCAAs 的原子水平表征,这一目标的努力可能会受到阻碍。在这里,我们描述了五个包含荧光非天然氨基酸 l-(7-羟基香豆素-4-基)乙基甘氨酸(7-HCAA)的链霉亲和素突变体的光谱和结构特征,这些突变体位于其底物生物素结合位点的附近。许多突变体在结合生物素时表现出荧光光谱的改变,包括荧光强度的增加或减少以及发射峰的红移或蓝移。还获得了五个突变体中的三个的结构数据。晶体结构揭示了 7-HCAA 与蛋白质或底物提供的功能基团之间的相互作用,这些相互作用可能是观察到 7-HCAA 光谱变化的原因。这些数据可用于未来旨在合理设计基于荧光的小分子结合或解离的蛋白质传感器的研究。