Stoichiometric protein complex formation and over-expression using the prokaryotic native operon structure

Christian Poulsen; Simon Holton; Arie Geerlof; Matthias Wilmanns; Young Hwa Song

doi:10.1016/j.febslet.2009.12.057

Stoichiometric protein complex formation and over-expression using the prokaryotic native operon structure

Christian Poulsen, Simon Holton, Arie Geerlof, Matthias Wilmanns, Young Hwa Song^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Physik

EMBL-Hamburg

25 Zitate (Scopus)

Abstract

In prokaryotes, operon encoded proteins often form protein-protein complexes. Here, we show that the native structure of operons can be used to efficiently overexpress protein complexes. This study focuses on operons from mycobacteria and the use of Mycobacterium smegmatis as an expression host. We demonstrate robust and correct stoichiometric expression of dimers to higher oligomers. The expression efficacy was found to be largely independent of the intergenic distances. The strategy was successfully extended to express mycobacterial protein complexes in Escherichia coli, showing that the operon structure of gram-positive bacteria is also functional in gram-negative bacteria. The presented strategy could become a general tool for the expression of large quantities of pure prokaryotic protein complexes for biochemical and structural studies.

Originalsprache	Englisch
Zeitschrift	FEBS Letters
Jahrgang	584
Ausgabenummer	4
Seiten (von - bis)	669-674
Seitenumfang	6
ISSN	0014-5793
DOIs	https://doi.org/10.1016/j.febslet.2009.12.057
Publikationsstatus	Veröffentlicht - 02.2010

Fördermittel

We thank Frederice Gries for technical assistance and Gunter Stier for the gift of pETM-Z. We would like to express our appreciation to the Kaufmann lab (Max Planck Institute for Infectious Biology, Berlin, Germany) for providing the initial pSD26 vector. We would also like to thank the Mandelkow Laboratory (Max Planck Unit for Structural Molecular Biology, Hamburg, Germany) for electron microscope access and Gerard Drewes (Cellzome, Heidelberg) and Matthias Ehebauer for critical reading of the manuscript. This work was supported by the EC Grant ScrIn-Silico ( LSHP-CT-012127 ) to M.W., by the BMBF Grant “X-MTB” ( 0312992A ) to M.W., and by a grant within the BMBF programme Pathogenomik Plus ( PTJ-BIO 0313801L ) to M.W.

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10.1016/j.febslet.2009.12.057

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title = "Stoichiometric protein complex formation and over-expression using the prokaryotic native operon structure",

abstract = "In prokaryotes, operon encoded proteins often form protein-protein complexes. Here, we show that the native structure of operons can be used to efficiently overexpress protein complexes. This study focuses on operons from mycobacteria and the use of Mycobacterium smegmatis as an expression host. We demonstrate robust and correct stoichiometric expression of dimers to higher oligomers. The expression efficacy was found to be largely independent of the intergenic distances. The strategy was successfully extended to express mycobacterial protein complexes in Escherichia coli, showing that the operon structure of gram-positive bacteria is also functional in gram-negative bacteria. The presented strategy could become a general tool for the expression of large quantities of pure prokaryotic protein complexes for biochemical and structural studies.",

author = "Christian Poulsen and Simon Holton and Arie Geerlof and Matthias Wilmanns and Song, \{Young Hwa\}",

note = "Funding Information: We thank Frederice Gries for technical assistance and Gunter Stier for the gift of pETM-Z. We would like to express our appreciation to the Kaufmann lab (Max Planck Institute for Infectious Biology, Berlin, Germany) for providing the initial pSD26 vector. We would also like to thank the Mandelkow Laboratory (Max Planck Unit for Structural Molecular Biology, Hamburg, Germany) for electron microscope access and Gerard Drewes (Cellzome, Heidelberg) and Matthias Ehebauer for critical reading of the manuscript. This work was supported by the EC Grant ScrIn-Silico ( LSHP-CT-012127 ) to M.W., by the BMBF Grant “X-MTB” ( 0312992A ) to M.W., and by a grant within the BMBF programme Pathogenomik Plus ( PTJ-BIO 0313801L ) to M.W. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.",

year = "2010",

month = feb,

doi = "10.1016/j.febslet.2009.12.057",

language = "English",

volume = "584",

pages = "669--674",

journal = "FEBS Letters",

issn = "0014-5793",

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T1 - Stoichiometric protein complex formation and over-expression using the prokaryotic native operon structure

AU - Poulsen, Christian

AU - Holton, Simon

AU - Geerlof, Arie

AU - Wilmanns, Matthias

AU - Song, Young Hwa

N1 - Funding Information: We thank Frederice Gries for technical assistance and Gunter Stier for the gift of pETM-Z. We would like to express our appreciation to the Kaufmann lab (Max Planck Institute for Infectious Biology, Berlin, Germany) for providing the initial pSD26 vector. We would also like to thank the Mandelkow Laboratory (Max Planck Unit for Structural Molecular Biology, Hamburg, Germany) for electron microscope access and Gerard Drewes (Cellzome, Heidelberg) and Matthias Ehebauer for critical reading of the manuscript. This work was supported by the EC Grant ScrIn-Silico ( LSHP-CT-012127 ) to M.W., by the BMBF Grant “X-MTB” ( 0312992A ) to M.W., and by a grant within the BMBF programme Pathogenomik Plus ( PTJ-BIO 0313801L ) to M.W. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.

PY - 2010/2

Y1 - 2010/2

N2 - In prokaryotes, operon encoded proteins often form protein-protein complexes. Here, we show that the native structure of operons can be used to efficiently overexpress protein complexes. This study focuses on operons from mycobacteria and the use of Mycobacterium smegmatis as an expression host. We demonstrate robust and correct stoichiometric expression of dimers to higher oligomers. The expression efficacy was found to be largely independent of the intergenic distances. The strategy was successfully extended to express mycobacterial protein complexes in Escherichia coli, showing that the operon structure of gram-positive bacteria is also functional in gram-negative bacteria. The presented strategy could become a general tool for the expression of large quantities of pure prokaryotic protein complexes for biochemical and structural studies.

AB - In prokaryotes, operon encoded proteins often form protein-protein complexes. Here, we show that the native structure of operons can be used to efficiently overexpress protein complexes. This study focuses on operons from mycobacteria and the use of Mycobacterium smegmatis as an expression host. We demonstrate robust and correct stoichiometric expression of dimers to higher oligomers. The expression efficacy was found to be largely independent of the intergenic distances. The strategy was successfully extended to express mycobacterial protein complexes in Escherichia coli, showing that the operon structure of gram-positive bacteria is also functional in gram-negative bacteria. The presented strategy could become a general tool for the expression of large quantities of pure prokaryotic protein complexes for biochemical and structural studies.

UR - https://www.scopus.com/pages/publications/77649271186

U2 - 10.1016/j.febslet.2009.12.057

DO - 10.1016/j.febslet.2009.12.057

M3 - Journal articles

C2 - 20085764

AN - SCOPUS:77649271186

SN - 0014-5793

VL - 584

SP - 669

EP - 674

JO - FEBS Letters

JF - FEBS Letters

IS - 4

ER -

Stoichiometric protein complex formation and over-expression using the prokaryotic native operon structure

Abstract

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