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1.
构筑蛋白质的编码信息存在于高度保守的密码子表中,而生物体仅利用20种天然氨基酸,就能排列组合出不同的蛋白质来行使多种生物学功能。通过合成生物学的飞速发展,使得在蛋白质合成中可控地引入非天然氨基酸成为可能。这极大地拓展了蛋白质的结构和功能,并为生物学工具的开发和生物生理过程的研究提供了便利。具有活性基团的非天然氨基酸可以广泛地应用于蛋白质结构研究、蛋白质功能调控以及新型生物材料构建和医药研发等诸多领域。基因密码子拓展技术利用正交翻译系统,通过重新分配密码子改造中心法则,可以在蛋白质的指定位点引入非天然氨基酸。系统地介绍了目前提升密码子拓展技术插入非天然氨基酸效率的方法,包括tRNA以及氨酰tRNA合成酶的各种突变方法和翻译辅助因子的改造。汇总了利用古细菌酪氨酰tRNA合成酶插入的非天然氨基酸和突变位点并总结了密码子拓展技术在生物医药领域的前沿进展。最后讨论了该项技术目前所面临的挑战,如可利用的密码子数量不多、正交翻译系统的种类有限和非天然氨基酸多插效率低下。希望能够帮助研究者建立适合的非天然氨基酸插入方法并推动密码子拓展技术进一步发展。  相似文献   

2.
tRNA作为生命中心法则中翻译过程的重要参与分子,其种类、丰度都会对蛋白质的正常合成产生巨大影响。近年来通过对微生物tRNA的结构功能以及合成修饰过程的解析获得诸多启发,开展密码子扩展的研究,实现将非天然氨基酸引入特定位置从而获得新功能蛋白。同时,通过化学合成微生物基因组开展的密码子重编码工作将释放更多的密码子与tRNA用于更加广泛的密码子扩展研究。对微生物tRNA与密码子系统在合成生物学中的最新应用研究进展进行了综述,并讨论其未来的发展趋势。  相似文献   

3.
李哲  凌虹 《生物工程学报》2022,38(2):620-631
遗传密码扩充(genetic code expansion, GCE)技术利用终止密码子将非天然氨基酸掺入到蛋白质中,再结合点击反应对蛋白质实现定点标记。相较于荧光蛋白、标签抗体等其他标记工具,该技术在蛋白标记中使用的化合物分子较小、对蛋白空间结构影响较小,且能通过点击反应实现蛋白分子与染料分子1︰1的化学计量比,从而能够依据荧光强度对蛋白质定量。因此,在活细胞单分子追踪和超分辨率显微成像等需要细胞长时间暴露在高激光功率下的研究中,GCE技术具有极大的优势。同时,该技术也为提高活细胞成像过程中的定位精度和分子计数准确度奠定了基础。文中旨在总结近年来GCE技术在蛋白质研究中的应用进展,特别是在蛋白质标记成像方面的应用进展。  相似文献   

4.
非天然氨基酸在医药、农药、材料等领域得到广泛应用,其绿色、高效合成越来越受到关注。近年来,随着合成生物学的快速发展,微生物细胞工厂为非天然氨基酸的制造提供了重要手段。文中从合成途径的重构、关键酶的设计改造及与前体的协同调控、竞争性旁路途径的敲除、辅因子循环系统的构建等方面介绍了一系列非天然氨基酸细胞工厂构建与应用的研究进展,并从基于计算机深度学习的非天然氨基酸微生物细胞工厂设计新原则、与细胞和环境相适配的生物合成新途径,以及基于细胞适应性进化和智能发酵调控的生物制造新体系等方面对非天然氨基酸细胞工厂的进一步构建和应用进行了展望,提出了非天然氨基酸绿色、高效工业化生产的重要前景。  相似文献   

5.
刘莹莹  卜宁  卢元 《生物工程学报》2019,35(12):2269-2283
无细胞合成生物系统,能够在体外完成生命转录翻译过程,因体系灵活开放、便于控制、表达周期短、高耐受性等特点,可表达细胞系统难以表达的蛋白质。随着无细胞生物传感和体系冻干技术的不断发展,其在医药健康领域的应用不断拓展。本文综述了无细胞合成生物学在按需生物医药合成和便携式医疗检测等医药健康领域的研究进展,该体系的进一步发展有潜力实现更复杂后修饰蛋白质药物的合成、可丰富无细胞生物传感器类型并提高其灵敏性。无细胞合成生物学作为新兴工程策略,未来必将更好地应用于高通量医药蛋白质筛选、新型病原体的检测等医药健康领域。  相似文献   

6.
非天然氨基酸正交翻译技术利用外源的非天然氨基酸氨酰tRNA合成酶(aaRS)基因和对应的tRNA基因构建非天然氨基酸正交翻译系统(Orthogonal translation system)。该正交翻译系统能利用终止密码子在蛋白翻译过程中将非天然氨基酸定点插入目标多肽链中。该技术不但是一种新的蛋白质生化研究工具,在新型基因工程病毒疫苗研究中更具有划时代的意义。利用人为构建的具有非天然氨基酸正交翻译系统的转基因细胞,通过在病毒复制的关键基因中引入提前终止密码子构建的突变病毒,在添加非天然氨基酸的情况下该基因仍能完整表达从而完成病毒的复制和传代,但该突变病毒在正常细胞(无非天然氨基酸正交翻译系统的宿主细胞)中因复制关键基因不能完整表达而无法复制传代,因而是一种复制缺陷型病毒。这种复制缺陷型病毒用作疫苗时兼具了减毒活疫苗免疫效果良好与灭活疫苗安全性高的优点,是一种较为理想的活病毒疫苗。文中简要综述了非天然氨基酸正交翻译技术在新型复制缺陷活病毒疫苗研究中的应用及其前景。  相似文献   

7.
蛋白质是生命的物质基础,在生物体中行驶着极为重要的功能,各种细胞活动和生命过程的发生都需要蛋白质的参与。例如,DNA复制转录,RNA翻译,以及信号传导等过程中发挥关键作用的聚合酶、翻译复合物、信号传导受体等都是蛋白质。正常细胞体内的所有蛋白质都由20种天然存在的氨基酸组成,它们通过立体构象变化及翻译后修饰等来控制其功能的发挥。而在实际应用中,学者们为了实现不同的研究目的,发展了很多在蛋白质中引入20种自然氨基酸之外的非自然氨基酸(unnatural amino acid,UAA)的方法,如化学修饰合成、体外翻译、遗传密码扩展等,从而将蛋白质的性质根据研究和应用的需要进行拓展。本文综述了各类化学与生物中引入非自然氨基酸的方法,并介绍了非自然氨基酸在化学生物学研究中的最新应用。  相似文献   

8.
tRNA介导蛋白质工程   总被引:1,自引:0,他引:1  
在遗传信息从DNA到蛋白质流动的过程中,tRNA携带特异的氨基酸参与蛋白质合成,对于维持蛋白质翻译的忠实性起着非常重要的作用,生物体内共有20种氨酰tRNA合成酶,每一种均对尖于一种氨基酸和一个tRNA类型,但是这种翻译过程仅仅限于20种天然氨基酸,因此在进行传统的蛋白质工程研究时常常受到限制,事实上,在蛋白质工程中借助于校正 tRNA定点掺入非天然氨基酸可以提供蛋白质的结构信息,改进蛋白质检测与分离的方法,甚至赋予蛋白质某些新的特性,随着生物技术的发展和完善,tRNA介导蛋白质工程将不仅在蛋白质工程中发挥潜能,而且在研制新型生物材料和疾病诊断及药物治疗方面起到推动作用。  相似文献   

9.
无细胞合成生物学作为新兴的多学科交叉手段,已很好地应用于蛋白质工程领域。因为无细胞生物合成系统无需完整的活细胞,在体外就可激活转录和翻译机器,因此,可减少对细胞的依赖性,从而增加工程的自由度。无细胞系统的这些优点使它已经成为强大的蛋白质工程平台,用于膜蛋白和医药蛋白的合成、非天然氨基酸的嵌入以及高通量分析。无细胞蛋白质合成系统不仅在基础科学研究而且在工业化生产中拥有广阔的应用前景。本文中,笔者系统综述了无细胞蛋白质合成系统的研究及应用,并展望了该系统的研究前景。  相似文献   

10.
在遗传信息从DNA到蛋白质流动的过程中,tRNA携带特异的氨基酸参与蛋白质合成,对于维持蛋白质翻译的忠实性起着非常重要的作用。生物体内共有20种氨酰tRNA合成酶,每一种均对应于一种氨基酸和一个tRNA类型。但是这种翻译过程仅仅限于20种天然氨基酸,因此在进行传统的蛋白质工程研究时常常受到限制。事实上,在蛋白质工程中借助于校正tRNA定点掺入非天然氨基酸可以提供蛋白质的结构信息,改进蛋白质检测与分离的方法,甚至赋予蛋白质某些新的特性。随着生物技术的发展和完善,tRNA介导蛋白质工程将不仅在蛋白质工程中发挥潜能,而且在研制新型生物材料和疾病诊断及药物治疗方面起到推动作用。  相似文献   

11.
Many biophysical techniques that are available to study the structure, function and dynamics of cellular constituents require modification of the target molecules. Site-specific labelling of a protein is of particular interest for fluorescence-based single-molecule measurements including single-molecule FRET or super-resolution microscopy. The labelling procedure should be highly specific but minimally invasive to preserve sensitive biomolecules. The modern molecular engineering toolkit provides elegant solutions to achieve the site-specific modification of a protein of interest often necessitating the incorporation of an unnatural amino acid to introduce a unique reactive moiety. The Amber suppression strategy allows the site-specific incorporation of unnatural amino acids into a protein of interest. Recently, this approach has been transferred to the mammalian expression system. Here, we demonstrate how the combination of unnatural amino acid incorporation paired with current bioorthogonal labelling strategies allow the site-specific engineering of fluorescent dyes into proteins produced in the cellular environment of a human cell. We describe in detail which parameters are important to ensure efficient incorporation of unnatural amino acids into a target protein in human expression systems. We furthermore outline purification and bioorthogonal labelling strategies that allow fast protein preparation and labelling of the modified protein. This way, the complete eukaryotic proteome becomes available for single-molecule fluorescence assays.  相似文献   

12.
An orthogonal tRNA/aminoacyl-tRNA synthetase pair was evolved that makes possible the site-specific incorporation of an unnatural amino acid bearing a beta-diketone side chain into proteins in Escherichia coli with high translational efficiency and fidelity. Proteins containing this unnatural amino acid can be efficiently and selectively modified with hydroxylamine derivatives of fluorophores and other biophysical probes.  相似文献   

13.
In this study, we investigated the efficiencies by which the pET and pQE expression systems produce unnatural recombinant proteins by residue-specific incorporation of unnatural amino acids, a method through which it was found that type of gene expression system tremendously influences the production yield of unnatural proteins in Escherichia coli. Green fluorescent protein (GFP) and a single-chain Fv antibody against c-Met were utilized as model recombinant proteins while L-homopropargylglycine (Hpg), a methionine analogue that incorporates into the methionine residues of a recombinant protein, was used as model unnatural amino acid. The pET system produced an almost negligible amount of Hpg-incorporated unnatural protein compared to the amount of methionine-incorporated natural protein. However, comparable amounts of unnatural and natural protein were produced by the pQE expression system. The amount of unnatural GFP protein produced through pET expression was not increased despite the over-expression of methionyl tRNA synthetase, which can enhance the activation rate of methionyl-tRNA with a methionine analogue. Incorporation of Hpg decreased the productivity of active GFP by approximately 2.5 fold, possibly caused by the inefficient folding of Hpg-incorporated GFP. Conversely, the productivity of functional anti-c-Met sc-Fv was not influenced by incorporation of Hpg. We confirmed through LC-MS and LCMS/MS that Hpg was incorporated into the methionine residues of the recombinant proteins produced by the pQE expression system. The first two authors equally contributed to this work.  相似文献   

14.
In vivo incorporation of unnatural amino acids by amber codon suppression is limited by release factor-1-mediated peptide chain termination. Orthogonal ribosome-mRNA pairs function in parallel with, but independent of, natural ribosomes and mRNAs. Here we show that an evolved orthogonal ribosome (ribo-X) improves tRNA(CUA)-dependent decoding of amber codons placed in orthogonal mRNA. By combining ribo-X, orthogonal mRNAs and orthogonal aminoacyl-tRNA synthetase/tRNA pairs in Escherichia coli, we increase the efficiency of site-specific unnatural amino acid incorporation from approximately 20% to >60% on a single amber codon and from <1% to >20% on two amber codons. We hypothesize that these increases result from a decreased functional interaction of the orthogonal ribosome with release factor-1. This technology should minimize the functional and phenotypic effects of truncated proteins in experiments that use unnatural amino acid incorporation to probe protein function in vivo.  相似文献   

15.
The manipulation of the chemical structure of proteins beyond what is feasible with standard genetics, offers a powerful strategy to investigate protein mechanisms. By allowing the incorporation of biophysical probes, unnatural amino acids, and post-translational modifications in proteins, chemistry-driven approaches have greatly contributed to the understanding of the molecular basis of protein function.  相似文献   

16.
The research in the field of design and synthesis of unnatural amino acids is growing at a fast space for the increasing demand of proteins of potential therapeutics and many other diversified novel functional applications. Thus, we report herein the design and synthesis of microenvironment sensitive fluorescent triazolyl unnatural amino acids (UNAA) decorated with donor and/or acceptor aromatic chromophores via click chemistry. The synthesized fluorescent amino acids show interesting solvatochromic characteristic and/or intramolecular charge transfer (ICT) feature as is revealed from the UV–visible, fluorescence photophysical properties and DFT/TDDFT calculation. HOMO–LUMO distribution shows that the emissive states of some of the amino acids are characterized with more significant electron redistribution between the triazolyl moiety and the aromatic chromophores linked to it leading to modulated emission property. A pair of donor–acceptor amino acid shows interesting photophysical interaction property indicating a FRET quenching event. Furthermore, one of the amino acid, triazolyl-perylene amino acid, has been exploited for studying interaction with BSA and found that it is able to sense BSA with an enhancement of fluorescence intensity. Finally, we incorporated a pair of donor/acceptor amino acids into a Leu-enkephalin analogue pentapeptide which was found to adopt predominantly type II β-turn conformation. We envisage that our investigation is of importance for the development of new fluorescent donor–acceptor unnatural amino acids a pair of which can be exploited for generating fluorescent peptidomimetic probe of interesting photophysical property for applications in studying peptide–protein interaction.  相似文献   

17.
The adaptation of native chemical ligation to protein semisynthesis has become a powerful way to address problems in the analysis of protein structure and function. In particular, the exploitation of nature's inteins in expressed protein ligation is now a standard approach in the study of proteins. Site-specific incorporation of unnatural amino acids, biophysical probes and post-translational modifications in proteins have led to new insights into enzyme mechanisms, protein folding, ion channel function, translation and signaling.  相似文献   

18.
Amyloid diseases are characterized by the aggregation of various proteins to form insoluble β-sheet–rich fibrils leading to cell death. Vibrational spectroscopies have emerged as attractive methods to study this process because of the rich structural information that can be extracted without large, perturbative probes. Importantly, specific vibrations such as the amide-I band directly report on secondary structure changes, which are key features of amyloid formation. Beyond intrinsic vibrations, the incorporation of unnatural vibrational probes can improve sensitivity for secondary structure determination (e.g. isotopic labeling), can provide residue-specific information of the surrounding polarity (e.g. unnatural amino acid), and are translatable into cellular studies. Here, we review the latest studies that have leveraged tools from chemical biology for the incorporation of novel vibrational probes into amyloidogenic proteins for both mechanistic and cellular studies.  相似文献   

19.
Incorporation of unnatural amino acids with unique chemical functionalities has proven to be a valuable tool for expansion of the functional repertoire and properties of proteins as well as for structure-function analysis. Incorporation of alpha-hydroxy acids (primary amino group is substituted with hydroxyl) leads to the synthesis of proteins with peptide bonds being substituted by ester bonds. Practical application of this modification is limited by the necessity to prepare corresponding acylated tRNA by chemical synthesis. We investigated the possibility of enzymatic incorporation of alpha-hydroxy acid and acid analogues (lacking amino group) of amino acids into tRNA using aminoacyl-tRNA synthetases (aaRSs). We studied direct acylation of tRNAs by alpha-hydroxy acid and acid analogues of amino acids and corresponding chemically synthesized analogues of aminoacyl-adenylates. Using adenylate analogues we were able to enzymatically acylate tRNA with amino acid analogues which were otherwise completely inactive in direct aminoacylation reaction, thus bypassing the natural mechanisms ensuring the selectivity of tRNA aminoacylation. Our results are the first demonstration that the use of synthetic aminoacyl-adenylates as substrates in tRNA aminoacylation reaction may provide a way for incorporation of unnatural amino acids into tRNA, and consequently into proteins.  相似文献   

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