Conjugation of Proteins by Installing BIO-Orthogonally Reactive Groups at Their N-Termini

N-terminal site-specific modification of a protein has many advantages over methods targeting internal positions, but it is not easy to install reactive groups onto a protein in an N-terminal specific manner. We here report a strategy to incorporate amino acid analogues specifically in the N-terminus of a protein in vivo and demonstrate it by preparing green fluorescent protein (GFP) having bio-orthogonally reactive groups at its N-terminus. In the first step, GFP was engineered to be a foldable, internal methionine-free sequence via the semi-rational mutagenesis of five internal methionine residues and the introduction of mutations for GFP folding enhancement. In the second step, the N-terminus of the engineered protein was modified in vivo with bio-orthogonally functional groups by reassigning functional methionine surrogates such as L-homopropargylglycine and L-azidohomoalanine into the first methionine codon of the engineered internal methionine-free GFP. The N-terminal specific incorporation of unnatural amino acids was confirmed by ESI-MS analysis and the incorporation did not affect significantly the specific activity, refolding rate and folding robustness of the protein. The two proteins which have alkyne or azide groups at their N-termini were conjugated each other by bio-orthogonal Cu(I)-catalyzed click chemistry. The strategy used in this study is expected to facilitate bio-conjugation applications of proteins such as N-terminal specific glycosylation, labeling of fluorescent dyes, and immobilization on solid surfaces.     

无细胞体系非天然蛋白质合成研究进展

无细胞非天然蛋白质合成作为蛋白质研究的新兴手段,已成功用于表征蛋白质分子间、蛋白质与核酸分子间相互作用等基础科学研究及医药蛋白、蛋白质材料等工业生产领域。无细胞非天然蛋白质合成系统不需维持细胞的生长,无细胞膜阻碍,可依据研究目的添加基因元件或化学物质从而增强工程设计和过程调控的自由性;也可赋予蛋白质新的特性、结构及功能,如可实现蛋白翻译后修饰、反应手柄引入、生物物理探针及多聚蛋白质合成等。文中系统地综述了目前应用于无细胞蛋白质合成系统中的非天然氨基酸嵌入方法,包括全局抑制及基于正交翻译体系的终止密码子抑制、移码抑制、有义密码子再分配和非天然碱基等方法的研究进展,及非天然氨基酸在蛋白质修饰、生物物理探针、酶工程、蛋白质材料以及医药蛋白质生产等领域的应用进展,并分析了该体系的发展前景及广泛工业化应用的机遇与挑战。     

Design of protein congeners containing β-cyclopropylalanine

The non-canonical amino acid (ncAA) analogue of methionine (Met), β-cyclopropylalanine (Cpa), was successfully incorporated into recombinant proteins expressed in Escherichia coli in a residue-specific manner. Proteins substituted in this way are congeners because they derive from the same gene sequence as the parent protein but contain a fraction of ncAAs. We have expressed congeners using parent and mutant gene sequences of various proteins (lipase, annexin A5, enhanced green fluorescent protein, and barstar) and found that Cpa incorporation is highly dependent on the protein sequence composition. These results indicate that the global amino acid composition of proteins might be a crucial parameter that influences the outcome of unnatural translation. In addition, we could also demonstrate that the chemical nature of the second residue could be essential for successful ncAA incorporation.     

Evaluation and biosynthetic incorporation of chlorotyrosine into recombinant proteins

Recently, non-canonical amino acids (NCAA) incorporation was developed to enhance the functional properties of proteins. Incorporation of NCAA containing chlorine atom is conceptually an attractive approach to prepare pharmacologically active substances, which is a difficult task since chlorine is bulky atom. In this study, we evaluated the efficiency and extent of in vivo incorporation of tyrosine analogue 3-chlorotyrosine [(3-Cl)Tyr] into the recombinant proteins GFP and GFPHS (highly stable GFP). The incorporation of (3-Cl)Tyr into GFP leads to dramatic reduction in the expression level of protein. On the other hand, the incorporation of (3-Cl)Tyr into GFPHS was expressed well as a soluble form. In addition we used bioinformatics tools for the analysis to explore the possible constraints in micro-environment of each natural amino acid residue to be replaced with chlorine atom accommodation into GFPHS. In conclusion, our approaches are reliable and straightforward way to enhance the translation of chlorinated amino acids into proteins.     

Enhanced protein stability through minimally invasive,direct, covalent,and site‐specific immobilization

Bioconjugating protein to nonbiological surfaces is an essential component of many promising biotechnologies impacting diverse applications such as medical diagnostics, biocatalysis, biohazard detection, and proteomics. However, to enable the widespread economical use of immobilized‐protein technologies, long‐term stability, and reusability is essential. To enhance protein stability in harsh conditions, herein we report a minimally invasive and covalent bioconjugation that enables precise control of the immobilization location at potentially any surface‐accessible location where the incorporated unnatural amino acid does not impact protein structure and function. Specifically, the PRECISE system is introduced where a uniquely reactive unnatural amino acid was incorporated site‐specifically at a prespecified location in GFP using cell‐free protein synthesis. The GFP was then directly and covalently attached to superparamagnetic beads by the unnatural amino acid in a single click reaction. The immobilized GFP was probed for retained activity and stability under harsh conditions including freeze‐thaw cycling and incubation in urea at elevated temperatures. The immobilized GFP was more stable compared to unattached protein in all cases and for all durations observed. The enhanced stability of the immobilized protein is a promising step towards long‐term protein stability for biocatalysis and other immobilized‐protein applications. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2013     

叶绿体分裂蛋白PDV1胞质侧结构域可溶性表达条件的研究及纯化

目的:探索叶绿体分裂蛋白PLASTID DIVISION1(PDV1)胞质侧结构域的高效可溶性表达条件,并得到高纯度目的蛋白。方法:通过改变表达载体种类、基因片段大小、诱导剂浓度、诱导温度的方法,以及运用分子伴侣的协助,实现目的蛋白高效可溶性表达。通过镍柱亲和层析和分子筛层析纯化目的蛋白。结果:(1)带His标签的目的蛋白大部分以包涵体形式存在于沉淀中;(2)截掉疏水区域并与增溶标签GST或NusA融合表达,再通过改变诱导表达条件,可以实现PDV1胞质侧结构域的可溶性表达;(3)比较目的蛋白可溶性表达量,选择高效可溶性表达体系,并在该条件下纯化得到高纯度目的蛋白。结论:PDV1胞质侧结构域的高效可溶性表达及纯化,为进一步研究该蛋白的结构及其在叶绿体分裂过程中的作用奠定了一定基础。     

Evaluation and optimisation of unnatural amino acid incorporation and bioorthogonal bioconjugation for site-specific fluorescent labelling of proteins expressed in mammalian cells

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.     

Global incorporation of norleucine in place of methionine in cytochrome P450 BM-3 heme domain increases peroxygenase activity

In this study we have replaced all 13 methionine residues in the cytochrome P450 BM-3 heme domain (463 amino acids) with the isosteric methionine analog norleucine. This experiment has provided a means of testing the functional limits of globally incorporating into an enzyme an unnatural amino acid in place of its natural analog, and also an efficient way to test whether inactivation during peroxide-driven P450 catalysis involves methionine oxidation. Although there was no increase in the stability of the P450 under standard reaction conditions (in 10 mM hydrogen peroxide), complete substitution with norleucine resulted in nearly two-fold-increased peroxygenase activity. Thermostability was significantly reduced. The fact that the enzyme can tolerate such extensive amino acid replacement suggests that we can engineer enzymes with unique chemical properties via incorporation of unnatural amino acids while retaining or improving catalytic properties. This system also provides a platform for directing enzyme evolution using an extended set of protein building blocks.     

引入非天然氨基酸胶原蛋白表达及交联成键的优化

微生物重组表达胶原蛋白来源清洁,同时具有序列设计灵活和高产量高纯度等优点,作为生物材料在组织工程等领域具有广泛的应用前景。然而如何促进重组胶原分子交联,使其形成更加稳定的空间结构是设计重组胶原纳米材料需要克服的难点。文中通过双质粒系统将非天然氨基酸O-(2-溴乙基)-酪氨酸引入细菌胶原蛋白序列中,并对其发酵条件进行优化,结果表明在25 ℃下,以终浓度为0.5 mmol/L的IPTG和0.06%的阿拉伯糖诱导24 h可以获得高纯度含非天然氨基酸的胶原蛋白。将含非天然氨基酸的胶原蛋白与含半胱氨酸的胶原蛋白在pH为9.0的NH4HCO3缓冲液中进行交联,形成了最大分子粒径可达1 μm的聚集体,为重组胶原蛋白生物材料的设计提供了新思路。     

New effective sources of the Staphylococcus simulans lysostaphin

The gene encoding Staphylococcus simulans lysostaphin has been cloned into two Escherichia coli expression systems: pET23b+ (Novagen, UK) and pBAD/Thio-TOPO (Invitrogen, USA), which allow the overexpression of a target protein as a fusion protein. The enzyme produced in the pET system contains a cluster of six histidines at the C-terminus, and the protein produced in the pBAD system contains 133 additional amino acid residues at the N-terminus, including thioredoxin, a cluster of six histidines and a recognition site for endoprotease Factor Xa. The recombinant enzymes were purified by metal-affinity chromatography on a Co2+-Sepharose column. Approximately 20 mg of purified recombinant enzyme were obtained in the pET expression system and 39 mg in the pBAD system, from a 1-L culture. The obtained fusion protein from the pET system revealed specific activity that was approximately 10 times higher than that of the fusion protein from the pBAD system (970 U/mg versus 83 U/mg). The purified enzymes displayed maximum activity at close to 45 degrees C and pH 8.0 or 7.5 for the enzyme obtained from pET and pBAD system, respectively. The lysostaphin activity was strongly inhibited by Zn2+ or Cu2+ (2 mM) with a 70-80% decrease. The Ni2+ (2 mM) also inhibited the enzyme with a 60 and 20% activity decrease for enzyme from the pET and pBAD system, respectively. The Co2+ had no impact on enzymatic activity at the 2 mM concentration; however, 30 and 20% activity decreases were observed at the 10mM concentration for the enzyme obtained from the pET and pBAD expression systems, respectively. EDTA, known as a strong inhibitor of the native lysostaphin, had no impact on the antistaphylococcal activity of either recombinant enzyme.     

Expansion of the genetic code: site-directed p-fluoro-phenylalanine incorporation in Escherichia coli.

Site-directed incorporation of the amino acid analogue p-fluoro-phenylalanine (p-F-Phe) was achieved in Escherichia coli. A yeast suppressor tRNA(Phe)amber/phenylalanyl-tRNA synthetase pair was expressed in an analogue-resistant E. coli strain to direct analogue incorporation at a programmed amber stop codon in the DHFR marker protein. The programmed position was translated to 64-75% as p-F-Phe and the remainder as phenylalanine and lysine. Depending on the expression conditions, the p-F-Phe incorporation was 11-21-fold higher at the programmed position than the background incorporation at phenylalanine codons, showing high specificity of analogue incorporation. Protein expression yields of 8-12 mg/L of culture, corresponding to about two thirds of the expression level of the wild-type DHFR protein, are sufficient to provide fluorinated proteins suitable for 19F-NMR spectroscopy and other sample-intensive methods. The use of a nonessential "21st" tRNA/synthetase pair will permit incorporation of a wide range of analogues, once the synthetase specificity has been modified accordingly.     

非天然氨基酸正交翻译技术：一种新型基因工程活病毒疫苗研发技术

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。     

Augmentation of the affinity of HLA class I-binding peptides lacking primary anchor residues by manipulation of the secondary anchor residues

A direct binding assay has been used to investigate the effect of the secondary anchor residues on peptide binding to class I proteins of the major histocompatibility complex. Based on predictions from a previous chemometric approach, synthetic peptide analogues containing unnatural amino acids were synthesized and tested for B*2705 binding. Hydrophobic unnatural amino acids such as α-naphthyl- and cyclohexyl-alanine were found to be excellent substituents in the P3 secondary anchor position giving peptides with very high B*2705-binding affinity. The binding to B*2705 of peptides optimized for their secondary anchor residues, but lacking one of the P2 or P9 primary anchor residues was also investigated. Most such peptides did not bind, but one peptide, lacking the P2 Arg residue generally considered essential for binding to all B27 subtypes, was found to bind quite strongly. These findings demonstrate that peptide binding to class I proteins is due to a combination of all the anchor residues, which may be occupied also by unnatural amino acids–a necessary step towards the development of peptidic or non-peptidic antagonists for immunomodulation.     

广西眼镜王蛇毒酸性磷脂酶A2-1在不同载体的表达

目的构建广西眼镜王蛇毒酸性磷脂酶A2-1(APLA2-1)在不同载体的重组表达质粒,在E.coli中表达APLA2-1并比较不同表达系统对APLA2-1的表达效果。方法将广西眼镜王蛇毒酸性磷脂酶A2-1(AP-LA2-1)基因克隆至表达载体pBLMVL2和pET28a( ),分别转化入大肠杆菌RR1和BL21,经过诱导表达,应用SDS-聚丙烯酰胺凝胶(SDS-PAGE)及Western blot观察重组蛋白表达情况。结果成功构建了重组质粒pBLMVL2-APLA2-1和pET28a-APLA2-1。pBLMVL2-APLA2-1在SDS-PAGE上没见明显表达带,在Western blot上可见一14 kD的表达带。pET28a-APLA2-1在SDS-PAGE上有一明显的18 kD表达条带,表达产物AP-LA2-1约占细菌总量30%,并以包涵体的形式存在。结论APLA2-1可在大肠杆菌中表达,pET28a( )对APLA2-1的表达效果优于pBLMVL2。     

基因编码3-氯酪氨酸改造荧光蛋白

蛋白质翻译后修饰产生的3-氯酪氨酸 (3-Cl-Tyr)与多种疾病相关,包括帕金森病、哮喘、动脉粥样硬化等． 在动脉粥样硬化患者中发现AopA1 192位酪氨酸有高水平的氯化, 显示此种修饰可能会促进病变．为了研究酪氨酸氯代对蛋白质功能的调控作用,我们发展了将3-Cl-Tyr定点特异插入到蛋白质中的方法． 因为3-Cl-Tyr酚羟基上的质子比酪氨酸(Tyr)更容易解离,具有更低的pKa,在绿色荧光蛋白GFP及其突变体,以及光转化荧光蛋白mEOS2荧光活性中心中分别用3-Cl-Tyr取代Tyr,使得GFP发色基团的pKa降低到4.7,并且具有与EGFP相似的量子产率,使mEOS2 发色基团的pKa降低到4.2.这样使得荧光蛋白的发色基团在酸性条件下仍然能以去质子化形式存在,在500 nm以上仍然具有较强吸收,避免了用400 nm左右激光激发及其对细胞及细胞器造成的光损伤．这种新型的荧光蛋白突变体将适用于溶酶体、吞噬酶体等酸性细胞器．     

遗传密码扩充技术及其在蛋白质功能研究及标记成像中的应用

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。     

Translational incorporation of multiple unnatural amino acids in a cell-free protein synthesis system

Nature uses 20 canonical amino acids as the standard building blocks of proteins; however, the incorporation of unnatural amino acids (Uaas) can endow polypeptide sequences with new structural and functional features. Although aminoacyl-tRNA synthetases (aaRSs) can accept an array of Uaas in place of their natural counterparts, Uaas generally are charged to tRNAs with substantially lower efficiencies. This particularly makes it difficult to incorporate multiple Uaas into a protein sequence. In this study, we discuss the use of a cell-free protein synthesis system as a versatile platform for the efficient incorporation of multiple Uaas into proteins. Taking advantage of the open nature of cell-free protein synthesis that allows flexible manipulation of its ingredients, we explored the application of Uaas in 10 mM range of concentrations to kinetically overcome the low affinity of aaRSs towards unnatural amino acids. Supplementation of recombinant aaRSs was also investigated to further increase the Uaa-tRNA pools. As a result, under the modified reaction conditions, as many as five different Uaas could be incorporated into a single protein without compromising the yield of protein synthesis.     

Evaluation of the GFP signal and its aptitude for novel on-line monitoring strategies of recombinant fermentation processes

A high number of economically important recombinant proteins are produced in Escherichia coli based host/vector systems. The major obstacle for improving current processes is a lack of appropriate on-line in situ methods for the monitoring of metabolic burden and critical state variables. Here, a pre-evaluation of the reporter green fluorescent protein (GFP) was undertaken to assess its use as a reporter of stress associated promoter regulation. The investigation of GFP and its blue fluorescent variant BFP was done in model fermentations using E. coli HMS 174(DE3)/pET11 aGFPmut3.1 and E. coli HMS174(DE3)/pET1aBFP host/vector systems cultured in fed-batch and chemostat regime. Our results prove the suitability of the fluorescent reporter proteins for the design of new strategies of on-line bioprocess monitoring. GFPmut3.1 variant can be detected after a short lag-phase of only 10 min, it shows a high fluorescence yield in relation to the amount of reporter protein, a good signal to noise ratio and a low detection limit. The fluorescence-signal and the amount of fluorescent protein, determined by ELISA, showed a close correlation in all fermentations performed. A combination of reporter technology with state of the art sensors helps to develop new strategies for efficient on-line monitoring needed for industrial process optimisation. The development of efficient monitoring will contribute to advanced control of recombinant protein production and accelerate the development of optimised production processes.     

Circular mRNA can direct translation of extremely long repeating-sequence proteins in vivo.

Many proteins with unusual structural properties are comprised of multiple repeating amino acid sequences and are often fractious to expression in recombinant systems. To facilitate recombinant production of such proteins for structural and engineering studies, we have produced circular messenger RNAs with infinite open reading frames. We show that a circular mRNA containing a simple green fluorescent protein (GFP) open reading frame can direct GFP expression in Escherichia coli. A circular mRNA with an infinite GFP open reading frame produces extremely long protein chains, proving that bacterial ribosomes can internally initiate and repeatedly transit a circular mRNA. Only the monomeric forms of GFP produced from circular mRNA are fluorescent. Analysis of the translation initiation region shows that multiple sequences contribute to maximal translation from circular mRNA. This technology provides a unique means of producing a very long repeating-sequence protein, and may open the way for development of proteinaceous materials with novel properties.     

Baculovirus expression vectors that incorporate the foreign protein into viral occlusion bodies

Current baculovirus expression systems typically produce soluble proteins that accumulate within the infected insect cell or are secreted into the growth medium. A system has now been developed for the incorporation of foreign proteins, along with the matrix protein, polyhedrin, into baculovirus occlusion bodies. Initial studies showed that a recombinant virus expressing a translational fusion between polyhedrin and GFP did not form occlusion bodies. However, a baculovirus coexpressing native polyhedrin and the polyhedrin-GFP fusion protein formed occlusion bodies that fluoresced under UV light, demonstrating that they included the polyhedrin-GFP fusion protein. This was confirmed by immunoblot analysis. Thus, incorporation of a foreign protein into occlusion bodies depends on an interaction between native polyhedrin and the polyhedrin fusion protein. Electron microscopy demonstrated that the occlusion bodies containing GFP also incorporated virions as expected. These ColorPol occlusion bodies were as infectious to insect larvae as occlusion bodies produced by wild-type virus. This new system expands the capabilities for foreign gene expression by baculoviruses, which has implications for biopesticide design, novel vaccine delivery systems, and fusion protein purification applications.