A general system for studying protein-protein interactions in gram-negative bacteria

Dale A. Pelletier; Gregory B. Hurst; Linda J. Foote; Patricia K. Lankford; Catherine K. McKeown; Tse Yuan Lu; Denise D. Schmoyer; Manesh B. Shah; W. Judson Hervey IV; W. Hayes McDonald; Brian S. Hooker; William R. Cannon; Don S. Daly; Jason M. Gilmore; H. Steven Wiley; Deanna L. Auberry; Yisong Wang; Frank W. Larimer; Stephen J. Kennel; Mitchel J. Doktycz; Jennifer L. Morrell-Falvey; Elizabeth T. Owens; Michelle V. Buchanan

doi:10.1021/pr8001832

A general system for studying protein-protein interactions in gram-negative bacteria

Dale A. Pelletier, Gregory B. Hurst, Linda J. Foote, Patricia K. Lankford, Catherine K. McKeown, Tse Yuan Lu, Denise D. Schmoyer, Manesh B. Shah, W. Judson Hervey IV, W. Hayes McDonald, Brian S. Hooker, William R. Cannon, Don S. Daly, Jason M. Gilmore, H. Steven Wiley, Deanna L. Auberry, Yisong Wang, Frank W. Larimer, Stephen J. Kennel, Mitchel J. DoktyczJennifer L. Morrell-Falvey, Elizabeth T. Owens, Michelle V. Buchanan

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19 Scopus citations

Abstract

One of the most promising methods for large-scale studies of protein interactions is isolation of an affinity-tagged protein with its in vivo interaction partners, followed by mass spectrometric identification of the copurified proteins. Previous studies have generated affinity-tagged proteins using genetic tools or cloning systems that are specific to a particular organism. To enable protein-protein interaction studies across a wider range of Gram-negative bacteria, we have developed a methodology based on expression of affinity-tagged "bait" proteins from a medium copy-number plasmid. This construct is based on a broad-host-range vector backbone (pBBR1MCS5). The vector has been modified to incorporate the Gateway DEST vector recombination region, to facilitate cloning and expression of fusion proteins bearing a variety of affinity, fluorescent, or other tags. We demonstrate this methodology by characterizing interactions among subunits of the DNA-dependent RNA polymerase complex in two metabolically versatile Gram-negative microbial species of environmental interest, Rhodopseudomo- nas palustris CGA010 and Shewanella oneidensis MR-1. Results compared favorably with those for both plasmid and chromosomally encoded affinity-tagged fusion proteins expressed in a model organism, Escherichia coli.

Original language	English
Pages (from-to)	3319-3328
Number of pages	10
Journal	Journal of Proteome Research
Volume	7
Issue number	8
DOIs	https://doi.org/10.1021/pr8001832
State	Published - Aug 2008

Keywords

Affinity purification
Mass spectrometry
Protein complexes
Protein interactions
Rna polymerase

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10.1021/pr8001832

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Pelletier, D. A., Hurst, G. B., Foote, L. J., Lankford, P. K., McKeown, C. K., Lu, T. Y., Schmoyer, D. D., Shah, M. B., Hervey IV, W. J., McDonald, W. H., Hooker, B. S., Cannon, W. R., Daly, D. S., Gilmore, J. M., Wiley, H. S., Auberry, D. L., Wang, Y., Larimer, F. W., Kennel, S. J., ... Buchanan, M. V. (2008). A general system for studying protein-protein interactions in gram-negative bacteria. Journal of Proteome Research, 7(8), 3319-3328. https://doi.org/10.1021/pr8001832

@article{2916988f785a48339dd400a84dc76f44,

title = "A general system for studying protein-protein interactions in gram-negative bacteria",

abstract = "One of the most promising methods for large-scale studies of protein interactions is isolation of an affinity-tagged protein with its in vivo interaction partners, followed by mass spectrometric identification of the copurified proteins. Previous studies have generated affinity-tagged proteins using genetic tools or cloning systems that are specific to a particular organism. To enable protein-protein interaction studies across a wider range of Gram-negative bacteria, we have developed a methodology based on expression of affinity-tagged {"}bait{"} proteins from a medium copy-number plasmid. This construct is based on a broad-host-range vector backbone (pBBR1MCS5). The vector has been modified to incorporate the Gateway DEST vector recombination region, to facilitate cloning and expression of fusion proteins bearing a variety of affinity, fluorescent, or other tags. We demonstrate this methodology by characterizing interactions among subunits of the DNA-dependent RNA polymerase complex in two metabolically versatile Gram-negative microbial species of environmental interest, Rhodopseudomo- nas palustris CGA010 and Shewanella oneidensis MR-1. Results compared favorably with those for both plasmid and chromosomally encoded affinity-tagged fusion proteins expressed in a model organism, Escherichia coli.",

keywords = "Affinity purification, Mass spectrometry, Protein complexes, Protein interactions, Rna polymerase",

author = "Pelletier, {Dale A.} and Hurst, {Gregory B.} and Foote, {Linda J.} and Lankford, {Patricia K.} and McKeown, {Catherine K.} and Lu, {Tse Yuan} and Schmoyer, {Denise D.} and Shah, {Manesh B.} and {Hervey IV}, {W. Judson} and McDonald, {W. Hayes} and Hooker, {Brian S.} and Cannon, {William R.} and Daly, {Don S.} and Gilmore, {Jason M.} and Wiley, {H. Steven} and Auberry, {Deanna L.} and Yisong Wang and Larimer, {Frank W.} and Kennel, {Stephen J.} and Doktycz, {Mitchel J.} and Morrell-Falvey, {Jennifer L.} and Owens, {Elizabeth T.} and Buchanan, {Michelle V.}",

year = "2008",

month = aug,

doi = "10.1021/pr8001832",

language = "English",

volume = "7",

pages = "3319--3328",

journal = "Journal of Proteome Research",

issn = "1535-3893",

publisher = "American Chemical Society",

number = "8",

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Pelletier, DA, Hurst, GB, Foote, LJ, Lankford, PK, McKeown, CK, Lu, TY, Schmoyer, DD, Shah, MB, Hervey IV, WJ, McDonald, WH, Hooker, BS, Cannon, WR, Daly, DS, Gilmore, JM, Wiley, HS, Auberry, DL, Wang, Y, Larimer, FW, Kennel, SJ, Doktycz, MJ , Morrell-Falvey, JL, Owens, ET & Buchanan, MV 2008, 'A general system for studying protein-protein interactions in gram-negative bacteria', Journal of Proteome Research, vol. 7, no. 8, pp. 3319-3328. https://doi.org/10.1021/pr8001832

TY - JOUR

T1 - A general system for studying protein-protein interactions in gram-negative bacteria

AU - Pelletier, Dale A.

AU - Hurst, Gregory B.

AU - Foote, Linda J.

AU - Lankford, Patricia K.

AU - McKeown, Catherine K.

AU - Lu, Tse Yuan

AU - Schmoyer, Denise D.

AU - Shah, Manesh B.

AU - Hervey IV, W. Judson

AU - McDonald, W. Hayes

AU - Hooker, Brian S.

AU - Cannon, William R.

AU - Daly, Don S.

AU - Gilmore, Jason M.

AU - Wiley, H. Steven

AU - Auberry, Deanna L.

AU - Wang, Yisong

AU - Larimer, Frank W.

AU - Kennel, Stephen J.

AU - Doktycz, Mitchel J.

AU - Morrell-Falvey, Jennifer L.

AU - Owens, Elizabeth T.

AU - Buchanan, Michelle V.

PY - 2008/8

Y1 - 2008/8

N2 - One of the most promising methods for large-scale studies of protein interactions is isolation of an affinity-tagged protein with its in vivo interaction partners, followed by mass spectrometric identification of the copurified proteins. Previous studies have generated affinity-tagged proteins using genetic tools or cloning systems that are specific to a particular organism. To enable protein-protein interaction studies across a wider range of Gram-negative bacteria, we have developed a methodology based on expression of affinity-tagged "bait" proteins from a medium copy-number plasmid. This construct is based on a broad-host-range vector backbone (pBBR1MCS5). The vector has been modified to incorporate the Gateway DEST vector recombination region, to facilitate cloning and expression of fusion proteins bearing a variety of affinity, fluorescent, or other tags. We demonstrate this methodology by characterizing interactions among subunits of the DNA-dependent RNA polymerase complex in two metabolically versatile Gram-negative microbial species of environmental interest, Rhodopseudomo- nas palustris CGA010 and Shewanella oneidensis MR-1. Results compared favorably with those for both plasmid and chromosomally encoded affinity-tagged fusion proteins expressed in a model organism, Escherichia coli.

AB - One of the most promising methods for large-scale studies of protein interactions is isolation of an affinity-tagged protein with its in vivo interaction partners, followed by mass spectrometric identification of the copurified proteins. Previous studies have generated affinity-tagged proteins using genetic tools or cloning systems that are specific to a particular organism. To enable protein-protein interaction studies across a wider range of Gram-negative bacteria, we have developed a methodology based on expression of affinity-tagged "bait" proteins from a medium copy-number plasmid. This construct is based on a broad-host-range vector backbone (pBBR1MCS5). The vector has been modified to incorporate the Gateway DEST vector recombination region, to facilitate cloning and expression of fusion proteins bearing a variety of affinity, fluorescent, or other tags. We demonstrate this methodology by characterizing interactions among subunits of the DNA-dependent RNA polymerase complex in two metabolically versatile Gram-negative microbial species of environmental interest, Rhodopseudomo- nas palustris CGA010 and Shewanella oneidensis MR-1. Results compared favorably with those for both plasmid and chromosomally encoded affinity-tagged fusion proteins expressed in a model organism, Escherichia coli.

KW - Affinity purification

KW - Mass spectrometry

KW - Protein complexes

KW - Protein interactions

KW - Rna polymerase

UR - http://www.scopus.com/inward/record.url?scp=53049103435&partnerID=8YFLogxK

U2 - 10.1021/pr8001832

DO - 10.1021/pr8001832

M3 - Article

C2 - 18590317

AN - SCOPUS:53049103435

SN - 1535-3893

VL - 7

SP - 3319

EP - 3328

JO - Journal of Proteome Research

JF - Journal of Proteome Research

IS - 8

ER -

A general system for studying protein-protein interactions in gram-negative bacteria

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Keywords

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