Structural and Mutational Studies of a Hyperthermophilic Intein from DNA Polymerase II of Pyrococcus abyssi
Autor: | Julie N. Reitter, Kathryn M. Colelli, Zhenming Du, Chunyu Wang, Jennie E. Williams, Michelle D. Marieni, Wen Chen, Alice Hsu, Kenneth V. Mills, Jiajing Liu, Clayton D. Albracht |
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Rok vydání: | 2011 |
Předmět: |
Pyrococcus abyssi
Magnetic Resonance Spectroscopy Protein Conformation DNA polymerase II DNA Mutational Analysis Molecular Sequence Data Protein Engineering Biochemistry Inteins Protein structure Protein splicing Amino Acid Sequence Molecular Biology biology Alternative splicing Proteins DNA Polymerase II Cell Biology Protein engineering biology.organism_classification Protein Structure Tertiary Alternative Splicing Structural biology Mutagenesis Mutation Protein Structure and Folding biology.protein Intein |
Zdroj: | Journal of Biological Chemistry. 286:38638-38648 |
ISSN: | 0021-9258 |
DOI: | 10.1074/jbc.m111.290569 |
Popis: | Protein splicing is a precise self-catalyzed process in which an intein excises itself from a precursor with the concomitant ligation of the flanking polypeptides (exteins). Protein splicing proceeds through a four-step reaction but the catalytic mechanism is not fully understood at the atomic level. We report the solution NMR structures of the hyperthermophilic Pyrococcus abyssi PolII intein, which has a noncanonical C-terminal glutamine instead of an asparagine. The NMR structures were determined to a backbone root mean square deviation of 0.46 Å and a heavy atom root mean square deviation of 0.93 Å. The Pab PolII intein has a common HINT (hedgehog intein) fold but contains an extra β-hairpin that is unique in the structures of thermophilic inteins. The NMR structures also show that the Pab PolII intein has a long and disordered loop in place of an endonuclease domain. The N-terminal Cys-1 amide is hydrogen bonded to the Thr-90 hydroxyl in the conserved block-B TXXH motif and the Cys-1 thiol forms a hydrogen bond with the block F Ser-166. Mutating Thr-90 to Ala dramatically slows N-terminal cleavage, supporting its pivotal role in promoting the N-S acyl shift. Mutagenesis also showed that Thr-90 and His-93 are synergistic in catalyzing the N-S acyl shift. The block F Ser-166 plays an important role in coordinating the steps of protein splicing. NMR spin relaxation indicates that the Pab PolII intein is significantly more rigid than mesophilic inteins, which may contribute to the higher optimal temperature for protein splicing. |
Databáze: | OpenAIRE |
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