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首页> 外文期刊>Journal of the American Chemical Society >In vivo Incorporation of Unnatural Amino Acids to Probe Structure, Dynamics, and Ligand Binding in a Large Protein by Nuclear Magnetic Resonance Spectroscopy
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In vivo Incorporation of Unnatural Amino Acids to Probe Structure, Dynamics, and Ligand Binding in a Large Protein by Nuclear Magnetic Resonance Spectroscopy

机译:体内掺入非天然氨基酸以通过核磁共振波谱探测大蛋白中的结构,动力学和配体结合。

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摘要

In vivo incorporation of isotopically labeled unnatural amino acids into large proteins drastically reduces the complexity of nuclear magnetic resonance (NMR) spectra. Incorporation is accomplished by coexpressing an orthogonal tRNA/aminoacyl-tRNA synthetase pair specific for the unnatural amino acid added to the media and the protein of interest with a TAG amber codon at the desired incorporation site. To demonstrate the utility of this approach for NMR studies, 2-amino-3-(4-(trifluoromethoxy)phenyl)propanoic acid (OCF_3Phe), ~(13)C/~(15)N-labeled p-methoxyphenylalanine (OMePhe), and ~(15)N-labeled onitrobenzyl-tyrosine (oNBTyr) were incorporated individually into 11 positions around the active site of the 33 kDa thioesterase domain of human fatty acid synthase (FAS-TE). In the process, a novel tRNA synthetase was evolved for OCF_3Phe. Incorporation efficiencies and FAS-TE yields were improved by including an inducible copy of the respective aminoacyl-tRNA synthetase gene on each incorporation plasmid. Using only between 8 and 25 mg of unnatural amino acid, typically 2 mg of FAS-TE, sufficient for one 0.1 mM NMR sample, were produced from 50 mL of Escherichia coli culture grown in rich media. Singly labeled protein samples were then used to study the binding of a tool compound. Chemical shift changes in ~1H-~(15)N HSQC, ~1H-~(13)C HSQC, and ~(19)F NMR spectra of the different single site mutants consistently identified the binding site and the effect of ligand binding on conformational exchange of some of the residues. OMePhe or OCF_3Phe mutants of an active site tyrosine inhibited binding; incorporating ~(15)N-Tyr at this site through UV-cleavage of the nitrobenzyl-photocage from oNBTyr re-established binding. These data suggest not only robust methods for using unnatural amino acids to study large proteins by NMR but also establish a new avenue for the site-specific labeling of proteins at individual residues without altering the protein sequence, a feat that can currently not be accomplished with any other method.
机译:在体内将同位素标记的非天然氨基酸掺入大蛋白质中,可大大降低核磁共振(NMR)光谱的复杂性。掺入是通过在所需掺入位点共表达对添加至培养基和目的蛋白的非天然氨基酸特异的正交tRNA /氨酰基-tRNA合成酶对完成的。为了证明该方法在NMR研究中的实用性,使用了2-氨基-3-(4-(三氟甲氧基)苯基)丙酸(OCF_3Phe),〜(13)C /〜(15)N标记的对甲氧基苯丙氨酸(OMePhe) ,和〜(15)N标记的邻硝基苄基酪氨酸(oNBTyr)分别掺入人脂肪酸合成酶(FAS-TE)的33 kDa硫酯酶结构域的活性位点周围的11个位置。在这个过程中,为OCF_3Phe开发了一种新型的tRNA合成酶。通过在每个掺入质粒上包含各自的氨酰基-tRNA合成酶基因的可诱导拷贝,提高了掺入效率和FAS-TE产量。仅使用8-25毫克的非天然氨基酸,通常从2毫克FAS-TE(足以用于一个0.1 mM NMR样品),即可从在丰富培养基中生长的50毫升大肠杆菌培养物中产生。然后将单独标记的蛋白质样品用于研究工具化合物的结合。不同单点突变体的〜1H-〜(15)N HSQC,〜1H-〜(13)C HSQC和〜(19)F NMR光谱中的化学位移变化一致地确定了结合位点和配体结合对一些残基的构象交换。活性位点酪氨酸的OMePhe或OCF_3Phe突变体抑制结合;通过从oNBTyr裂解硝基苄基光笼,在该位点掺入〜(15)N-Tyr重建结合。这些数据不仅暗示了使用非天然氨基酸通过NMR研究大蛋白的可靠方法,而且为在不改变蛋白序列的情况下在单个残基上对蛋白进行位点特异性标记开辟了一条新途径,这是目前无法实现的一项壮举任何其他方法。

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