Protein trans-splicing on an M13 bacteriophage: towards directed evolution of a semisynthetic split intein by phage display

Split inteins link their fused peptide or protein sequences with a peptide bond in an autocatalytic reaction called protein trans‐splicing. This reaction is becoming increasingly important for a variety of applications in protein semisynthesis, polypeptide circularisation, construction of biosensors...

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Bibliographic Details
Published in:Journal of peptide science 2010-10, Vol.16 (10), p.575-581
Main Authors: Garbe, Daniel, Thiel, Ilka V., Mootz, Henning D.
Format: Article
Language:English
Subjects:
Amino acids
Bacteria
Bacteriophage M13 - genetics
Biosensors
Biotin
directed evolution
Directed Molecular Evolution
Hybrids
in vitro selection
inteins
Inteins - genetics
Peptide Library
Peptides - genetics
Peptides - metabolism
Phage display
Phages
protein semisynthesis
Protein Splicing
Semisynthesis
Solubility
Ssp DnaB intein
streptavidin
synthetic peptides
Trans-Splicing
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Summary:Split inteins link their fused peptide or protein sequences with a peptide bond in an autocatalytic reaction called protein trans‐splicing. This reaction is becoming increasingly important for a variety of applications in protein semisynthesis, polypeptide circularisation, construction of biosensors, or segmental isotopic labelling of proteins. However, split inteins exhibit greatly varying solubility, efficiency and tolerance towards the nature of the fused sequences as well as reaction conditions. We envisioned that phage display as an in vitro selection technique would provide a powerful tool for the directed evolution of split inteins with improved properties. As a first step towards this goal, we show that presentation of active split inteins on an M13 bacteriophage is feasible. Two different C‐terminal intein fragments of the Ssp DnaB intein, artificially split at amino acid positions 104 and 11, were encoded in a phagemid vector in fusion to a truncated gpIII protein. For efficient production of hybrid phages, the presence of a soluble domain tag at their N‐termini was necessary. Immunoblot analysis revealed that the hybrid phages supported protein trans‐splicing with a protein or a synthetic peptide, respectively, containing the complementary intein fragment. Incorporation of biotin or desthiobiotin by this reaction provides a straightforward strategy for future enrichment of desired mutants from randomised libraries of the C‐terminal intein fragments on streptavidin beads. Protein semisynthesis on a phage could also be exploited for the selection of chemically modified proteins with unique properties. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd. Protein trans‐splicing has recently received increasing attention for the semisynthesis of proteins. We report that a semisynthetic protein can be generated on the surface of an M13 bacteriophage using an artificially split Ssp DnaB intein. This finding will provide the basis for improving split inteins as ligation tools by directed evolution and phage display.
ISSN:1075-2617
1099-1387
1099-1387
DOI:10.1002/psc.1243