Publikation: Structure of BamA, an essential factor in outer membrane protein biogenesis
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Datum
2014
Autor:innen
Albrecht, Reinhard
Schütz, Monika
Oberhettinger, Philipp
Faulstich, Michaela
Bermejo, Ivan
Rudel, Thomas
Zeth, Kornelius
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Acta Crystallographica Section D : Biological Crystallography. 2014, 70(6), pp. 1779-1789. ISSN 0907-4449. eISSN 1399-0047. Available under: doi: 10.1107/S1399004714007482
Zusammenfassung
Outer membrane protein (OMP) biogenesis is an essential process for maintaining the bacterial cell envelope and involves the β-barrel assembly machinery (BAM) for OMP recognition, folding and assembly. In Escherichia coli this function is orchestrated by five proteins: the integral outer membrane protein BamA of the Omp85 superfamily and four associated lipoproteins. To unravel the mechanism underlying OMP folding and insertion, the structure of the E. coli BamA β-barrel and P5 domain was determined at 3 Å resolution. These data add information beyond that provided in the recently published crystal structures of BamA from Haemophilus ducreyi and Neisseria gonorrhoeae and are a valuable basis for the interpretation of pertinent functional studies. In an `open' conformation, E. coli BamA displays a significant degree of flexibility between P5 and the barrel domain, which is indicative of a multi-state function in substrate transfer. E. coli BamA is characterized by a discontinuous β-barrel with impaired β1–β16 strand interactions denoted by only two connecting hydrogen bonds and a disordered C-terminus. The 16-stranded barrel surrounds a large cavity which implies a function in OMP substrate binding and partial folding. These findings strongly support a mechanism of OMP biogenesis in which substrates are partially folded inside the barrel cavity and are subsequently released laterally into the lipid bilayer.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
540 Chemie
Schlagwörter
OMP insertion, BAM complex, insertase, BamA, POTRA
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ALBRECHT, Reinhard, Monika SCHÜTZ, Philipp OBERHETTINGER, Michaela FAULSTICH, Ivan BERMEJO, Thomas RUDEL, Kay DIEDERICHS, Kornelius ZETH, 2014. Structure of BamA, an essential factor in outer membrane protein biogenesis. In: Acta Crystallographica Section D : Biological Crystallography. 2014, 70(6), pp. 1779-1789. ISSN 0907-4449. eISSN 1399-0047. Available under: doi: 10.1107/S1399004714007482BibTex
@article{Albrecht2014Struc-29871,
year={2014},
doi={10.1107/S1399004714007482},
title={Structure of BamA, an essential factor in outer membrane protein biogenesis},
number={6},
volume={70},
issn={0907-4449},
journal={Acta Crystallographica Section D : Biological Crystallography},
pages={1779--1789},
author={Albrecht, Reinhard and Schütz, Monika and Oberhettinger, Philipp and Faulstich, Michaela and Bermejo, Ivan and Rudel, Thomas and Diederichs, Kay and Zeth, Kornelius}
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<dcterms:abstract xml:lang="eng">Outer membrane protein (OMP) biogenesis is an essential process for maintaining the bacterial cell envelope and involves the β-barrel assembly machinery (BAM) for OMP recognition, folding and assembly. In Escherichia coli this function is orchestrated by five proteins: the integral outer membrane protein BamA of the Omp85 superfamily and four associated lipoproteins. To unravel the mechanism underlying OMP folding and insertion, the structure of the E. coli BamA β-barrel and P5 domain was determined at 3 Å resolution. These data add information beyond that provided in the recently published crystal structures of BamA from Haemophilus ducreyi and Neisseria gonorrhoeae and are a valuable basis for the interpretation of pertinent functional studies. In an `open' conformation, E. coli BamA displays a significant degree of flexibility between P5 and the barrel domain, which is indicative of a multi-state function in substrate transfer. E. coli BamA is characterized by a discontinuous β-barrel with impaired β1–β16 strand interactions denoted by only two connecting hydrogen bonds and a disordered C-terminus. The 16-stranded barrel surrounds a large cavity which implies a function in OMP substrate binding and partial folding. These findings strongly support a mechanism of OMP biogenesis in which substrates are partially folded inside the barrel cavity and are subsequently released laterally into the lipid bilayer.</dcterms:abstract>
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