Synthetic Two-piece and Three-piece Split Inteins for Protein trans-Splicing

Sun, Wenchang; Yang, Jing; Liu, Xiang-Qin

doi:10.1074/jbc.m405491200

Cited by 111 publications

(114 citation statements)

References 38 publications

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“…pH Urea gp41-1 (1 ؉ 6) C-extein sequence (proteins [15][16][17][18] and tested for C-cleavage activity when the purified proteins were mixed with the complementary Int N C1A fusions (proteins [11][12][13][14]. In Fig.…”

Section: Tablementioning

confidence: 99%

“…1A, the translation of both fragments reconstitutes the catalytic activity of protein trans-splicing to form the mature protein (12). Split inteins can also be generated artificially by dividing inteins into two or three fragments (13). In the case of the Ssp DnaB intein, the N-terminal intein fragment (Int N ) 3 could be as short as 11 amino acids (14), whereas 6 amino acids were sufficient for the Int C fragment of the Ssp GyrB intein (15).…”

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confidence: 99%

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Unprecedented Rates and Efficiencies Revealed for New Natural Split Inteins from Metagenomic Sources

Carvajal-Vallejos

Pallisse

Mootz

et al. 2012

Journal of Biological Chemistry

153

186

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Background: Hypothetical natural split inteins from environmental metagenomic sources were evaluated experimentally for the first time. Results: Four inteins showed the highest known reaction rates and efficiencies for protein trans-splicing and could be used efficiently for C-cleavage. Conclusion: These inteins pushed the catalytic limit of protein trans-splicing, although this was unpredictable from their primary sequence. Significance: These inteins hold great potential as versatile protein engineering tools.

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Section: Tablementioning

confidence: 99%

mentioning

confidence: 99%

Unprecedented Rates and Efficiencies Revealed for New Natural Split Inteins from Metagenomic Sources

Carvajal-Vallejos

Pallisse

Mootz

et al. 2012

Journal of Biological Chemistry

153

186

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“…Other primer sequences are listed in Supporting Information (Table S1). The 13 genes for (1)- (9), (12), (14), (16), and (20) in Table 1 were obtained by PCR from genomic DNAs (ATCC) or commercial plasmids (New England Biolabs) using the listed oligonucleotides. The first residue of (1) Mja KlbA intein in pSKDuet19, which is mutated to serine, was changed back to alanine by QuikChange Ò protocol (Stratagene) using the two oligonucleotides HK401 and HK402, resulting in pSEDuet33.…”

Section: Construction Of Plasmids For Gb1-intein-gb1 Precursorsmentioning

confidence: 99%

Evaluation and comparison of protein splicing by exogenous inteins with foreign exteins inEscherichia coli

2011

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a b s t r a c tProtein splicing catalyzed by inteins has enabled various biotechnological applications such as protein ligation. Successful applications of inteins are often limited by splicing efficiency. Here, we report the comparison of protein splicing between 20 different inteins from various organisms in identical contexts to identify robust inteins with foreign exteins. We found that RadA intein from Pyrococcus horikoshii and an engineered DnaB intein from Nostoc punctiforme demonstrated an equally efficient splicing activity to the previously reported highly efficient DnaE intein from Nostoc punctiforme. The newly identified inteins with efficient cis-splicing activity can be good starting points for the further development of new protein engineering tools.

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“…Other more recently emerging exciting avenues for protein engineering approaches rely on protein trans-splicing. This reaction is performed by split inteins, which are found in a few native examples (10,11) or can be created artificially from a regular intein (12)(13)(14)(15)(16)(17)(18)(19). Protein trans-splicing enables the post-translational linkage of proteins or polypeptides originating from two separate molecules.…”

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confidence: 99%

Interaction Studies and Alanine Scanning Analysis of a Semi-synthetic Split Intein Reveal Thiazoline Ring Formation from an Intermediate of the Protein Splicing Reaction

Ludwig

Schwarzer²,

Mootz

2008

Journal of Biological Chemistry

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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 structurefunction 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 Protein splicing is a process in which an internal protein segment, the intein, excises itself out of a precursor protein (1-4). The flanking sequences, referred to as N-and C-exteins (Ex N and Ex C ), 3 are concomitantly linked with a native peptide bond. This remarkable post-translational protein backbone rearrangement is catalyzed by the intein in a spontaneous, autocatalytic reaction without the need of any additional factors or energy sources. Protein splicing is initiated by the attack of the nucleophilic side chain of a Cys or Ser residue at the first position of the intein on its upstream peptide bond to generate a thioester or oxoester intermediate, respectively. In the second step of the pathway, the Ex N acyl group is transferred by a trans(thio)esterification on the side chain of a Cys, Ser, or Thr at the first position of the Ex C . The side chain amide group of an Asn residue at the ultimate position of the intein then attacks its own carbonyl group to form a succinimide and thereby to cleave the peptide bond between the intein and the Ex C . In the final reaction, the thio-or oxoester between the liberated Ex N -Ex C quickly rearranges to the thermodynamically more stable peptide bond. This canonical mechanism of protein splicing as well as deviations from it found in certain inteins have been extensively reviewed (1-4). Inteins are useful as self-cleavable tags for protein purification strategies (5). They also have found many applications in the fields of protein chemistry and protein semi-synthesis, as they provide a route to obtain recombinant protein thioesters and proteins with an N-terminal cysteine residue important for chemical ligation reactions like native chemical ligation (NCL) and expressed protein ligation (6 -8). These methods take advantage of the protein ester intermediates generated during protein splicing, which can be cleaved by thiolysis or hydrolysis, and the finding that inteins can in principle be inserted into a heterologous protein context, i.e. they are quite tolerant toward foreign extein sequences (5-7, 9). Other more recently emerging exciting avenues for protein engineering approaches rely on protein trans-splicing. Th...

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Synthetic Two-piece and Three-piece Split Inteins for Protein trans-Splicing

Cited by 111 publications

References 38 publications

Unprecedented Rates and Efficiencies Revealed for New Natural Split Inteins from Metagenomic Sources

Unprecedented Rates and Efficiencies Revealed for New Natural Split Inteins from Metagenomic Sources

Evaluation and comparison of protein splicing by exogenous inteins with foreign exteins inEscherichia coli

Interaction Studies and Alanine Scanning Analysis of a Semi-synthetic Split Intein Reveal Thiazoline Ring Formation from an Intermediate of the Protein Splicing Reaction

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