Electron crystallography of PhoE porin, an outer membrane, channel- forming protein from E. coli

ABSTRACT The Escherichia coli yjhA (renamed nanC) gene encodes a protein of the KdgM family of outer membrane-specific channels. It is transcribed divergently from fimB, a gene involved in the site-specific inversion of the region controlling transcription of the fimbrial structural genes but is separated from it by one of the largest intergenic regions in E. coli. We show that nanC expression is induced by N-acetylneuraminic acid and modulated by N-acetylglucosamine. This regulation occurs via the NanR and NagC regulators, which also control fimB expression. nanC expression is also activated by the regulators cyclic AMP-catabolite activator protein, OmpR, and CpxR. When the NanC protein was reconstituted into liposomes, it formed channels with a conductance of 450 pS at positive potential and 300 to 400 pS at negative potential in 800 mM KCl. The channels had a weak anionic selectivity. In an ompR background, where the general porins OmpF and OmpC are absent, NanC is required for growth of E. coli on N-acetylneuraminic acid as the sole carbon source. All these results suggest that NanC is an N-acetylneuraminic acid outer membrane channel protein.

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Roles of TolC-Dependent Multidrug Transporters of Escherichia coli in Resistance to β-Lactams

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.47.9.3030-3033.2003 ◽

2003 ◽

Vol 47 (9) ◽

pp. 3030-3033 ◽

Cited By ~ 91

Author(s):

Kunihiko Nishino ◽

Junko Yamada ◽

Hidetada Hirakawa ◽

Takahiro Hirata ◽

Akihito Yamaguchi

Keyword(s):

Escherichia Coli ◽

Antibiotic Resistance ◽

Cell Division ◽

Outer Membrane ◽

Drug Transporters ◽

Membrane Channel ◽

E Coli ◽

Multidrug Transporters ◽

Lactam Antibiotic ◽

Outer Membrane Channel

ABSTRACT AcrAB exports some β-lactam antibiotics in the periplasm out of cells via an outer-membrane channel, TolC. It has been reported that eight drug transporters in Escherichia coli cooperate with TolC. In this study, the roles of the drug exporters of E. coli in β-lactam resistance were examined. We found that five of five resistance-nodulation-cell division-type drug exporters confer β-lactam antibiotic resistance, while no other drug exporters confer any β-lactam resistance even when they cooperate with TolC.

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TolC Is Involved in Enterobactin Efflux across the Outer Membrane of Escherichia coli

Journal of Bacteriology ◽

10.1128/jb.187.19.6701-6707.2005 ◽

2005 ◽

Vol 187 (19) ◽

pp. 6701-6707 ◽

Cited By ~ 104

Author(s):

Corinna Bleuel ◽

Cornelia Große ◽

Nadine Taudte ◽

Judith Scherer ◽

Dirk Wesenberg ◽

...

Keyword(s):

Escherichia Coli ◽

Outer Membrane ◽

High Performance ◽

Pcr Analysis ◽

Iron Starvation ◽

Membrane Channel ◽

E Coli ◽

Iron Deprivation ◽

Outer Membrane Channel ◽

Major Facilitator

ABSTRACT Escherichia coli excretes the catecholate siderophore enterobactin in response to iron deprivation. While the mechanisms underlying enterobactin biosynthesis and ferric enterobactin uptake and utilization are widely understood, nearly nothing is known about how enterobactin is exported from the cell. Mutant and high-performance liquid chromatography analyses demonstrated that the outer membrane channel tunnel protein TolC but none of the respective seven resistance nodulation cell division (RND) proteins CusA, AcrB, AcrD, AcrF, MdtF (YhiV), or the twin RND MdtBC (YegNO) was essential for enterobactin export across the outer membrane. Mutant E. coli strains with additional deletion of tolC or the major facilitator entS were growth deficient in iron-depleted medium. Strains with deletion of tolC or entS, but not with deletion of genes encoding RND transporters, excreted very little enterobactin into the growth medium. Enterobactin excretion in E. coli is thus probably a two-step process involving the major facilitator EntS and the outer membrane channel tunnel protein TolC. Quantitative reverse transcription-PCR analysis of gene-specific transcripts showed no significant changes in tolC expression upon iron depletion. However, iron starvation led to increased expression of the RND gene mdtF and a decrease in acrD.

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