Structural and biochemical analysis of a novel atypically split intein reveals a conserved histidine specific to cysteine-less inteins

Tim Pasch, Alexander Schröder, Sabrina Kattelmann, Miriam Eisenstein, Shmuel Pietrokovski*, Daniel Kümmel*, Henning D. Mootz*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

Protein trans-splicing mediated by a split intein reconstitutes a protein backbone from two parts. This virtually traceless autoprocessive reaction provides the basis for numerous protein engineering applications. Protein splicing typically proceeds through two thioester or oxyester intermediates involving the side chains of cysteine or serine/threonine residues. A cysteine-less split intein has recently attracted particular interest as it can splice under oxidizing conditions and is orthogonal to disulfide or thiol bioconjugation chemistries. Here, we report the split PolB16 OarG intein, a second such cysteine-independent intein. As a unique trait, it is atypically split with a short intein-N precursor fragment of only 15 amino acids, the shortest characterized to date, which was chemically synthesized to enable protein semi-synthesis. By rational engineering we obtained a high-yielding, improved split intein mutant. Structural and mutational analysis revealed the dispensability of the usually crucial conserved motif N3 (block B) histidine as an obvious peculiar property. Unexpectedly, we identified a previously unnoticed histidine in hydrogen-bond forming distance to the catalytic serine 1 as critical for splicing. This histidine has been overlooked so far in multiple sequence alignments and is highly conserved only in cysteine-independent inteins as a part of a newly discovered motif NX. The motif NX histidine is thus likely of general importance to the specialized environment in the active site required in this intein subgroup. Together, our study advances the toolbox as well as the structural and mechanistic understanding of cysteine-less inteins.

Original languageEnglish
Pages (from-to)5204-5213
Number of pages10
JournalChemical Science
Volume14
Issue number19
Early online dateApr 2023
DOIs
Publication statusPublished - 17 May 2023

Bibliographical note

Funding Information:
We thank Stephan Wilmes for help with processing the structural data and Francine Perler (New England Biolabs) for providing a plasmid encoding the Psp GBD-Pol intein. We gratefully acknowledge partial funding of this project by the DFG (project grant MO1073/7-1 to H. D. M.).

Publisher Copyright:
© 2023 The Royal Society of Chemistry.

All Science Journal Classification (ASJC) codes

  • General Chemistry

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