A conserved threonine spring‐loads precursor for intein splicing

Protein splicing is an autocatalytic process where an “intein” self‐cleaves from a precursor and ligates the flanking N‐ and C‐“extein” polypeptides. Inteins occur in all domains of life and have myriad uses in biotechnology. Although the reaction steps of protein splicing are known, mechanistic details remain incomplete, particularly the initial peptide rearrangement at the N‐terminal extein/intein junction. Recently, we proposed that this transformation, an N‐S acyl shift, is accelerated by a localized conformational strain, between the intein's catalytic cysteine (Cys1) and the neighboring glycine (Gly‐1) in the N‐extein. That proposal was based on the crystal structure of a catalytically competent trapped precursor. Here, we define the structural origins and mechanistic relevance of the conformational strain using a combination of quantum mechanical simulations, mutational analysis, and X‐ray crystallography. Our results implicate a conserved, but largely unstudied, threonine residue of the Ssp DnaE intein (Thr69) as the mediator of conformational strain through hydrogen bonding. Further, the strain imposed by this residue is shown to position the splice junction in a manner that enhances the rate of the N‐S acyl shift substantially. Taken together, our results not only provide fundamental understanding of the control of the first step of protein splicing but also have important implications in various biotechnological applications that require precursor manipulation.     

Circular zymogens of human ribonuclease 1

The endogenous production of enzymes as zymogens provides a means to control catalytic activities. Here, we describe the heterologous production of ribonuclease 1 (RNase 1), which is the most prevalent secretory ribonuclease in humans, as a zymogen. In folded RNase 1, the N and C termini flank the enzymic active site. By using intein‐mediated cis‐splicing, we created circular proteins in which access to the active site of RNase 1 is obstructed by an amino‐acid sequence that is recognized by the HIV‐1 protease. Installing a sequence that does not perturb the RNase 1 fold led to only modest inactivation. In contrast, the ancillary truncation of residues from each terminus led to a substantial decrease in the catalytic activity of the zymogen with the maintenance of thermostability. For optimized zymogens, activation by HIV‐1 protease led to a > 10⁴‐fold increase in ribonucleolytic activity at a rate comparable to that for the cleavage of endogenous viral substrates. Molecular modeling indicated that these zymogens are inactivated by conformational distortion in addition to substrate occlusion. Because protease levels are elevated in many disease states and ribonucleolytic activity can be cytotoxic, RNase 1 zymogens have potential as generalizable prodrugs.     

Intein-mediated rapid purification of recombinant human pituitary adenylate cyclase activating polypeptide

In order to obtain the recombinant human PACAP efficiently by intein-mediated single column purification, a gene encoding human PACAP was synthesized and cloned into Escherichia coli expression vector pKYB. The recombinant vector pKY-PAC was transferred into E. coli ER2566 cells and the target protein was over-expressed as     

Overexpression and purification of Helicobacter pylori flavodoxin and induction of a specific antiserum in rabbits

Flavodoxin from the gastric pathogen Helicobacter pylori has been shown to be the electron acceptor of the essential pyruvate-oxidoreductase enzyme complex and proposed to be involved in the pathogenesis of gastric MALToma. In order to obtain a sufficient amount for biochemical and structural studies, we overexpressed the protein either with a C-terminal His(6) -tag or as a fusion protein upstream of intein- and chitin-binding domains. With both expression systems we succeeded at purifying soluble and functional flavodoxin containing the cofactor FMN. When expressing with a His(6) -tag, we purified approximately 20 mg flavodoxin per liter of bacterial culture, while expression as an intein-CBD fusion protein with autocatalytic removal of the intein-CBD part rendered only approximately 1 mg of purified flavodoxin per liter of bacterial culture. Expressed as an intein-CBD fusion protein, flavodoxin copurified with a C-terminal degradation product, which was not observed for expression with a His(6) -tag. However, we were able to obtain protein crystals suited for X-ray structure determination from flavodoxin expressed as an intein-CBD fusion protein, but not from flavodoxin expressed with a C-terminal His(6) -tag. We further report the induction of a rabbit antiserum specific for H. pylori flavodoxin.     

Creation of an artificial bifunctional intein by grafting a homing endonuclease into a mini-intein

The majority of inteins are comprised of a protein splicing domain and a homing endonuclease domain. Experimental evidence has demonstrated that the splicing domain and the endonuclease domain in a bifunctional intein are largely independent of each other with respect to both structure and activity. Here, an artificial bifunctional intein has been created through the insertion of an existing homing endonuclease into a mini-intein that is naturally lacking this functionality. The gene for I-CreI, an intron-encoded homing endonuclease, was grafted into the monofunctional Mycobacterium xenopi GyrA intein at the putative site of the missing endonuclease. The resulting fusion protein was found to be capable of protein splicing similar to that of the parent intein. In addition, the protein demonstrated site-specific endonuclease activity that is characteristic of the I-CreI homing endonuclease. The function of each domain therefore remained unaffected by the presence of the other domain. This artificial fusion of the two domains is a potential novel mobile genetic element.     

An 8 kb Nucleotide Sequence at the 3' Flanking Region of the sspC Gene (184{degrees}) on the Bacillus subtilis 168 Chromosome Containing an Intein and an Intron

As part of the Bacillus subtilis genome sequencing project,we determined the complete nucleotide sequence of an 8000-bpfragment downstream of the sspC gene (184°) of the B. subtilis168 chromosome. The sequence analysis shows that the sspC geneis located inside of the SPß region, which differsfrom the current genetic map of B. subtilis 168. This regioncontains 12 putative ORFs (yojQ through yojZ and sspC). A homologysearch for the deduced products of the ORFs shows signi.cantsimilarities to enzymes involved in deoxyribonucleotide metabolism:ribonucleotide reductase (Nrd) E, NrdF, thioredoxinand dUTPase.Interestingly, this DNA fragment includes two split genes, yojPcontaining conserved motifs of an intein and yojQ and yojS withan 808-bp intervening sequence for a putative intron structure.In addition, the yojR gene includes a putative new DNA replicationterminator.     

Crystallographic and mutational studies of Mycobacterium tuberculosis recA mini-inteins suggest a pivotal role for a highly conserved aspartate residue

The 440 amino acid Mtu recA intein consists of independent protein-splicing and endonuclease domains. Previously, removal of the central endonuclease domain of the intein, and selection for function, generated a 168 residue mini-intein, DeltaI-SM, that had splicing activity similar to that of the full-length, wild-type protein. A D422G mutation (DeltaI-CM) increased C-terminal cleavage activity. Using the DeltaI-SM mini-intein structure (presented here) as a guide, we previously generated a highly active 139 residue mini-intein, DeltaDeltaI(hh)-SM, by replacing 36 amino acid residues in the residual endonuclease loop with a seven-residue beta-turn from the autoprocessing domain of Hedgehog protein. The three-dimensional structures of DeltaI-SM, DeltaDeltaI(hh)-SM, and two variants, DeltaDeltaI(hh)-CM and DeltaDeltaI(hh), have been determined to evaluate the effects of the minimization on intein integrity and to investigate the structural and functional consequences of the D422G mutation. These structural studies show that Asp422 is capable of interacting with both the N and C termini. These interactions are lacking in the CM variant, but are replaced by contacts with water molecules. Accordingly, additional mutagenesis of residue 422, combined with mutations that isolate N-terminal and C-terminal cleavage, showed that the side-chain of Asp422 plays a role in both N and C-terminal cleavage, thereby suggesting that this highly conserved residue regulates the balance between the two reactions.     

新型断裂内含肽介导的可控性C端断裂

内含肽介导的蛋白质断裂被广泛地应用于蛋白质纯化、连接和环化. 但目前的方法都是用传统的连续的内含肽来介导蛋白质断裂反应,因而往往存在自发性断裂、产率低等问题. 本实验选择3个S1型新型断裂内含肽Ter ThyX、Ssp GryB和Rma DnaB来实现蛋白质断裂反应的可控性. 在可控性C端断裂反应中,S1型断裂内含肽的C端片段（IC ）与硫氧还蛋白（T）融合作为前体蛋白,加入化学合成的Ssp DnaB S1型断裂内含肽 的N端小肽与二硫苏糖醇（DTT）共同诱导C端断裂反应.结果表明,该小肽可以诱导这 3个不同的S1型断裂内含肽的前体蛋白发生C端断裂反应. 该方法为利用内含肽C端断 裂介导的蛋白质纯化提供了更多的选择,并为内含肽的结构与功能的关系研究提供-有用的线索.     

胸腺肽α1-Spl DnaX内含肽融合蛋白的切割动力学研究

目的:研究胸腺肽α1(Tα1)与Spl DnaX内含肽融合蛋白AS的体外切割动力学。方法:构建Tα1和SplDnaX内含肽的融合表达载体pET-AS,转化大肠杆菌BL21(DE3),经乳糖诱导获得可溶性表达的融合蛋白AS,用镍亲和层析纯化该蛋白;综合评价温度、β-巯基乙醇(β-ME)浓度和诱导切割时间对Spl DnaX内含肽介导融合蛋白AS自切割释放Tα1的影响。结果:在大肠杆菌中诱导表达了融合蛋白AS,经镍柱纯化获得该蛋白;随着温度升高和β-ME浓度增加,诱导切割时间延长,Spl DnaX内含肽介导的切割率逐渐增大;最终采用300 mmol/Lβ-ME切割24 h,融合蛋白的硫解切割率大于90%。结论:通过对Spl DnaX内含肽的诱导切割条件进行摸索,确定了最适宜的切割条件,为利用该方法制备Tα1和其他小分子多肽提供了技术基础。     

Facilitative production of an antimicrobial peptide royalisin and its antibody via an artificial oil-body system

Royalisin found in the royal jelly of Apis mellifera is an antimicrobial peptide (AMP). It has a molecular weight of 5.5 kDa, which contains six cysteine residues. In this study, royalisin was overexpressed in Escherichia coli AD494 (DE3) as two oleosin-fusion proteins for preparation of its antibodies and functional purification. The recombinant royalisin, fused with oleosin central hydrophobic domain in both N- and C-termini, was reconstituted with triacylglycerol and phospholipids to form artificial oil bodies (AOBs). The AOBs were then purified to raise the antibodies. These antibodies could recognize both the native and recombinant royalisins, but not oleosin. Another oleosin-intein S-fusion protein was purified by AOBs system, and royalisin was subsequently released from the AOBs through self-splicing of the intein. The recombinant royalisin exhibited high antibacterial activity, which suggested that it was refolded to its functional structure. These results demonstrated that AOBs system is an efficient method to functionally express and purify small AMPs. In addition, it also provides a facile platform for the production of antibodies against small peptides.