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1.
Protein splicing mediated by inteins is a self-processive reaction leading to the excision of the internal intein domain from a precursor protein and the concomitant ligation of the flanking sequences, the extein-N and extein-C parts, thereby reconstituting the host protein. Most inteins employ a splicing pathway in which the upstream scissile peptide bond is consecutively rearranged into two thioester or oxoester intermediates before intein excision and rearrangement into the new peptide bond occurs. The catalytically critical amino acids involved at the two splice junctions are cysteine, serine, or threonine. Notably, the only potential combination not observed so far in any of the known or engineered inteins corresponds to the transesterification from an oxoester to a thioester, which suggested that this formal uphill reaction with regard to the thermodynamic stability might be incompatible with intein-mediated catalysis. We show that corresponding mutations also led to inactive gp41-1 and AceL-TerL inteins. We report the novel GOS-TerL split intein identified from metagenomic databases as the first intein harboring the combination of Ser1 and Cys+1 residues. Mutational analysis showed that its efficient splicing reaction indeed follows the shift from oxoester to thioester and thus represents a rare diversion from the canonical pathway. Furthermore, the GOS-TerL intein has an atypical split site close to the N terminus. The IntN fragment could be shortened from 37 to 28 amino acids and exchanged with the 25-amino acid IntN fragment from the AceL-TerL intein, indicating a high degree of promiscuity of the IntC fragment of the GOS-TerL intein.  相似文献   

2.
We recently reported an artificially split intein based on the Ssp DnaB mini-intein that consists of a synthetic N-terminal intein fragment (Int(N)) and a recombinant C-terminal part (Int(C)), which are 11 and 143 amino acids in length, respectively. This intein holds great promise for the preparation of semi-synthetic proteins by protein trans-splicing. In this work we synthesized a set of Int(N) peptide variants to investigate their structure-function relationship with regard to fragment association and promotion of protein trans-splicing. A further truncation of the Int(N) sequence below 11 amino acids resulted in loss of activity, whereas C-terminal extensions were tolerated. Alanine scanning analysis identified three essential hydrophobic residues, whereas substitutions at other positions were tolerated. We developed assays to monitor association of Int(N) with an Int(C) mutant blocked in protein splicing by native PAGE and fluorescence anisotropy. The kinetic parameters of intein complex formation were K(d) = 1.1 mum, k(on) = 16.8 m(-1) s(-1), and k(off) = 1.8 x 10(-5) s(-1) for the native Int(N11) sequence. Intriguingly, a G(-1)A substitution, previously known to significantly impair protein splicing, was revealed to result in thiazoline ring formation involving the catalytic Cys-1, likely by aberrant dehydration of a oxythiazolidine intermediate. This finding provides experimental evidence for the postulated intermediate during the initial N/S acyl shift and underlines the delicate spatial and temporal alignment required in the intein active site to prevent side reactions of the protein-splicing pathway.  相似文献   

3.
We report here the use of TEV protease cleavable fusion proteins to produce glycosylated bioactive peptides and proteins. Bacterial expression was utilized to produce two fusion proteins, GPRT-C37-H6 and His-tagged interleukin-2 (amino acids 6-133), which when cleaved by the tobacco etch virus NIa protease (TEV protease) to generate HIV entry inhibitor peptide C37-H6 and a truncated version of the cytokine interleukin-2, both containing N-terminal cysteines. The N-terminal cysteine containing C37-H6 and truncated interleukin-2 were then joined to a synthetic glycopeptide thioester utilizing native chemical ligation under nondenaturing and denaturing conditions, respectively. The ligations of the glycopeptide to the C37-H6 peptide and the truncated interleukin-2 protein both proceeded in high yield, though the size, and physical properties of the two polypeptides differ greatly.  相似文献   

4.
Mathys S  Evans TC  Chute IC  Wu H  Chong S  Benner J  Liu XQ  Xu MQ 《Gene》1999,231(1-2):1-13
The determinants governing the self-catalyzed splicing and cleavage events by a mini-intein of 154 amino acids, derived from the dnaB gene of Synechocystis sp. were investigated. The residues at the splice junctions have a profound effect on splicing and peptide bond cleavage at either the N- or C-terminus of the intein. Mutation of the native Gly residue preceding the intein blocked splicing and cleavage at the N-terminal splice junction, while substitution of the intein C-terminal Asn154 resulted in the modulation of N-terminal cleavage activity. Controlled cleavage at the C-terminal splice junction involving cyclization of Asn154 was achieved by substitution of the intein N-terminal cysteine residue with alanine and mutation of the native C-extein residues. The C-terminal cleavage reaction was found to be pH-dependent, with an optimum between pH6.0 and 7.5. These findings allowed the development of single junction cleavage vectors for the facile production of proteins as well as protein building blocks with complementary reactive groups. A protein sequence was fused to either the N-terminus or C-terminus of the intein, which was fused to a chitin binding domain. The N-terminal cleavage reaction was induced by 2-mercaptoethanesulfonic acid and released the 43kDa maltose binding protein with an active C-terminal thioester. The 58kDa T4 DNA ligase possessing an N-terminal cysteine was generated by a C-terminal cleavage reaction induced by pH and temperature shifts. The intein-generated proteins were joined together through a native peptide bond. This intein-mediated protein ligation approach opens up novel routes in protein engineering.  相似文献   

5.
蛋白质剪切是一种翻译后修饰事件 ,它将插入前体蛋白的中间的蛋白质肽段 (Intein ,internalproteinfrag ment)剪切出来 ,并用正常肽键将两侧蛋白质多肽链 (Extein ,flankingproteinfragments)连接起来。在此过程中不需要辅酶或辅助因子的作用 ,仅需四步分子内反应。Intein及其侧翼序列可以通过突变产生高度特异性的自我切割用于蛋白质纯化、蛋白质连接和蛋白质环化反应 ,在蛋白质工程方面有广泛的应用前景。  相似文献   

6.
Intein-mediated protein ligation is a recently developed method that enables the C-terminal labeling of proteins. This technique requires a correctly folded intein mutant that is fused to the C-terminus of a target protein to create a thioester, which allows the ligation of a peptide with an N-terminal cysteine (1, 2). Here we describe the establishment of this method for the labeling, under denaturing conditions, of target proteins that are expressed insolubly as intein fusion proteins. A GFPuv fusion protein with the Mycobacterium xenopi gyrA intein was expressed in inclusion bodies in Escherichia coli and initially used as a model protein to verify intein cleavage activity under different refolding conditions. The intein showed activity after refolding in nondenaturing and slightly denaturing conditions. A construct of the same intein with an anti-neutravidin single-chain antibody was also expressed in an insoluble form. The intein-mediated ligation was established for this single chain antibody-intein fusion protein under denaturing conditions in 4 M urea to prevent significant precipitation of the fusion protein during the first refolding step. Under optimized conditions, the single-chain antibody was labeled with a fluorescent peptide and used for antigen screening on a biochip after final refolding. This screening procedure allowed the determination of binding characteristics of the scFv for avidin proteins in a miniaturized format.  相似文献   

7.
Mini-inteins derived from Synechocystis sp. (Ssp DnaB intein) and Mycobacterium xenopi (Mxe GyrA intein) that have been modified to cleave peptide bonds at their C and N termini, respectively, were cloned in-frame to the N and C termini of a target protein. Peptide bond cleavage of the modified inteins generated an N-terminal cysteine and a C-terminal thioester on the same protein. These complementary reactive groups underwent intra- or intermolecular condensation to generate circular or polymeric protein species with a new peptide bond at the site of ligation. Three cyclic peptides, BBP, an organ specific localization peptide; RGD, an inhibitor of platelet aggregation; and CDR-H3/C2, which inhibits HIV-1 replication, were isolated using the two-intein system. BBP, RGD, and CDR-H3/C2 had masses of 977.1, 1119.9, and 2098.6 g/mol, respectively, as determined by matrix-assisted laser desorption-time of flight mass spectrometry, which agreed well with the values of 977.2, 1120.3, and 2098.3 g/mol, respectively, predicted for the cyclic species. This system was used to cyclize proteins as large as 395 amino acids. Furthermore, multimers of thioredoxin were formed upon concentration of the reactive species, indicating the potential to form novel biomaterials based on fibrous proteins.  相似文献   

8.
Brenzel S  Kurpiers T  Mootz HD 《Biochemistry》2006,45(6):1571-1578
In protein trans-splicing, an intein domain split into two polypeptide chains mediates linkage of the flanking amino acid sequences, the N- and C-terminal exteins, with a native peptide bond. This process can be exploited to assemble proteins from two separately prepared fragments, e.g., for the segmental labeling with isotopes for NMR studies or the incorporation of chemical and biophysical probes. Split inteins can be artificially generated by genetic means; however, the purified inteinN and inteinC fragments usually require a denaturation and renaturation treatment to fold into the active intein, thus preventing their application to proteins that cannot be refolded. Here, we report that the purified fragments of the artificially split DnaB helicase of Synechocystis spp. PCC6803 (Ssp DnaB) intein are active under native conditions. The first-order rate constant of the protein trans-splicing reaction was 7.1 x 10(-4) s(-1). The previously described split vacuolar ATPase of Saccharomyces cerevisiae (Sce VMA) intein is the only other artificially split intein that is active under native conditions; however, it requires induced complex formation of the intein fragments by auxiliary dimerization domains for efficient protein trans-splicing. In contrast, fusion of the dimerization domains to the split Ssp DnaB intein fragments had no effect on activity. This difference was also reflected by a higher thermostability of the split Ssp DnaB intein. Further investigations of the split Sce VMA intein under optimized conditions revealed a first-order rate constant of 9.4 x 10(-4) s(-1) for protein trans-splicing and 1.7 x 10(-3) s(-1) for C-terminal cleavage involving a Cys1Ala mutant. Finally, we show that the two split inteins are orthogonal, suggesting further applications for the assembly of proteins from more than two parts.  相似文献   

9.
Here we report a bi-directional and interchangeable three-segment peptide ligation of N, M, and C-segments, mimicking the reverse process of protein splicing to form, in tandem, a tripartite NMC-peptide using a synthetic intein, a role served by the M-segment with an N-terminal Ser or Thr and a C-terminal thioester.  相似文献   

10.
Inteins are single-turnover catalysts that splice themselves out of a precursor polypeptide chain. For most inteins, the first step of protein splicing is the formation of a thioester through an N-S acyl shift at the upstream splice junction. However, the mechanism by which this reaction is achieved and the impact of mutations in and close to the active site remain unclear on the atomic level. To investigate these questions, we have further explored a split variant of the Ssp DnaB intein by introducing substitutions with unnatural amino acids within the short synthetic N-terminal fragment. A previously reported collapse of the oxythiazolidine anion intermediate into a thiazoline ring was found to be specificially dependent on the methyl side chain of the flanking Ala(-1). The stereoisomer d-Ala and the constitutional isomers β-Ala and sarcosine did not lead to this side reaction but rather supported splicing. Substitution of the catalytic Cys1 with homocysteine strongly inhibited protein splicing; however, thioester formation was not impaired. These results argue against the requirement of a base to deprotonate the catalytic thiol group prior to the N-S acyl shift, because it should be misaligned for optimal proton abstraction. A previously described mutant intein evolved for more general splicing in different sequence contexts could even rather efficiently splice with this homocysteine. Our findings show the large impact of some subtle structural changes on the protein splicing pathway, but also the remarkable tolerance toward other changes. Such insights will also be important for the biotechnological exploitation of inteins.  相似文献   

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