Sandwich Hybridization Assay for Sensitive Detection of Dynamic Changes in mRNA Transcript Levels in Crude
            <i>Escherichia coli</i>
            Cell Extracts in Response to Copper Ions

Thieme, Daniel; Neubauer, Peter; Nies, Dietrich H.; Grass, Gregor

doi:10.1128/aem.01370-08

Cited by 34 publications

(42 citation statements)

References 25 publications

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“…A mutant lacking CueP has an increased cellular copper load (15) and delayed copper-induced expression compared with the other Cue components (Fig. S1A), resembling the expression kinetics of the Escherichia coli cus locus (20). In addition, and unlike the other genes of the Cue regulon, its induction by copper is observed only in neutral conditions (pH 7.0), and not in acidic conditions (pH 5.5) (Fig.…”

Section: Resultsmentioning

confidence: 95%

Compartment and signal-specific codependence in the transcriptional control of Salmonella periplasmic copper homeostasis

Pezza

Pontel

López

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Copper homeostasis is essential for bacterial pathogen fitness and infection, and has been the focus of a number of recent studies. In Salmonella, envelope protection against copper overload and macrophage survival depends on CueP, a major copper-binding protein in the periplasm. This protein is also required to deliver the metal ion to the Cu/Zn superoxide dismutase SodCII. The Salmonella-specific CueP-coding gene was originally identified as part of the Cue regulon under the transcriptional control of the cytoplasmic copper sensor CueR, but its expression differs from the rest of CueR-regulated genes. Here we show that cueP expression is controlled by the concerted action of CueR, which detects the presence of copper in the cytoplasm, and by CpxR/CpxA, which monitors envelope stress. Copper-activated CueR is necessary for the appropriate spatial arrangement of the −10 and −35 elements of the cueP promoter, and CpxR is essential to recruit the RNA polymerase. The integration of two ancestral sensory systems—CueR, which provides signal specificity, and CpxR/CpxA, which detects stress in the bacterial envelope—restricts the expression of this periplasmic copper resistance protein solely to cells encountering surplus copper that disturbs envelope homeostasis, emulating the role of the CusR/CusS regulatory system present in other enteric bacteria.

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Section: Resultsmentioning

confidence: 95%

Compartment and signal-specific codependence in the transcriptional control of Salmonella periplasmic copper homeostasis

Pezza

Pontel

López

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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“…This may indicate that Cu I is more toxic than Cu II ; however, no uptake system was known for (28). On the other hand, upregulation of copA expression from background expression to about 350 copies per cell took only 2 min after addition of Cu II to the cells (32), and this regulatory event is performed by the MerR-type regulator CueR, which is usually constantly bound to its operator on the DNA (62). Thus, a Cu I import pathway should exist.…”

Section: Discussionmentioning

confidence: 99%

“…To address the question of whether DNA damage is involved in killing of E. coli cells on copper surfaces, the dps gene was deleted in wild-type E. coli strain W3310 and various mutants carrying deletions in genes (copA, cueO, cusCFBA; gshA and gshB for synthesis of glutathione [GSH] via gamma-glutamyl-cysteine) that are involved in copper tolerance (32,37,38,44,57). RT-PCR controls were done in all experiments to demonstrate the absence or presence of the gene transcripts in the respective mutants (data not shown).…”

Section: Dps Was Not Required For Copper Tolerancementioning

confidence: 99%

Survival of Escherichia coli Cells on Solid Copper Surfaces Is Increased by Glutathione

Große

Schleuder

Schmole

et al. 2014

Appl Environ Microbiol

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Bacteria are rapidly killed on solid copper surfaces, so this material could be useful to limit the spread of multiple-drug-resistant bacteria in hospitals. In Escherichia coli, the DNA-protecting Dps protein and the NADH:ubiquinone oxidoreductase II Ndh were not involved in tolerance to copper ions or survival on solid copper surfaces. Decreased copper tolerance under anaerobic growth conditions in the presence of ascorbate and with melibiose as the carbon source indicated that sodium-dependent symport systems may provide an import route for Cu I into the cytoplasm. Glutathione-free ⌬copA ⌬gshA double mutants of E. coli were more rapidly inactivated on solid copper surfaces than glutathione-containing wild-type cells. Therefore, while DNA protection by Dps was not required, glutathione was needed to protect the cytoplasm and the DNA against damage mediated by solid copper surfaces, which may explain the differences in the molecular mechanisms of killing between glutathione-containing Gram-negative and glutathione-free Gram-positive bacteria.

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“…В среднем количество молекул CusR при стрессе от избытка ионов меди меняется мало и состав-ляет 50-100 молекул на клетку. Таким образом, система CusRS участвует в обеспечении устойчивости к ионам в анаэробных условиях, где происходит увеличение их токсичности, но только в дополнение к эффлюксу меди при помощи CopA, экспрессия которого в анаэробных условиях также увеличивается (Outten et al, 2001;Thieme et al, 2008).…”

Section: экспериментальная системная биологияunclassified

Escherichia coli stress response systems and their reaction to terahertz radiation

Peltek¹,

Demidova²,

Popik³

et al. 2016

Vestn. VOGiS

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In this review, we summarize the latest data concern ing the reactions of Escherichia coli to nonthermal terahertz radiation and the underlying molecular mechanisms. E. coli is the most simple and convenient model object for studying the effects of terahertz radiation: both its genetics and metabolism are well studied, and it is easily amenable to genetic engineer ing allowing one to create biosensors using promoters of genes activated by certain stress factors and the re porter GFP protein. Transformed E. coli cells containing biosensors can be used to visualize their reactions to terahertz radiation based on the intensity of GFP fluorescence. In this review, we present data on the response of certain E. сoli stress response sys tems to terahertz radiation obtained by us, as well as by other authors. We discuss experimental results for E. сoli/ pKatGGFP, E. сoli/pCopAGFP, and E. сoli/ pEmrRGFP biosensors that are used to detect E. сoli genetic net works responding to oxidative stress, copper ion ho meostasis failures, and antiseptics, res pectively. The obtained data indicate that exposure to nonthermal terahertz radiation induces E. сoli gene networks of oxidative stress and copper ion homeostasis, but does not activate those responding to antibiotics, protonophores, or superoxide anions. The fact that E. сoli/pKatGGFP and E. сoli/pCopAGFP biosensors have different activation and reaction periods when exposed to terahertz radiation and natural inducers suggests that reactions of oxidative stress and copper ion homeostasis systems to tera hertz radiation are specific.Key words: terahertz radiation; E. сoli stress response systems; biosensors.Изложены результаты последних лет по изу чению реакции стрес совых систем Escherichia coli в ответ на нетер мическое воздейст вие терагерцового (ТГц) излучения. Наиболее простым и удобным объектом для изучения воздействия ТГц излу чения на живые объекты является бактерия E. сoli. Это связано с ее высокой изу ченностью как на молекулярногенетическом, так и на метабо лическом уровне, а также c возможностью создания на основе промоторов ее стрессактивируемых генов и репор тер ного белка GFP геносенсорных конструкций. Введение этих кон струкций в клетки E. coli позволяет исследовать реакцию кон крет ной стрес совой системы бактерии на ТГц излучение по ин тен сивно сти син теза белка GFP, легко определяемого флуорометри чески. В рабо те представлены данные литературных источников и собственные результаты по нетермическому воздействию ТГц излучения на кон кретные стрессовые системы E. coli. Обсуждают ся эксперимен тальные данные, полученные с использованием геносенсоров E. coli/pKatGGFP, E. coli/pCopAGFP и E. coli/pEmrRGFP, которые являются маркерами генных сетей E. coli, активирующихся в усло виях окислительного стресса, при нарушении гомеостаза ионов меди и в присутствии антисептиков соответственно. Обзор прове денных исследований показал, что нетермическое воздействие ТГц излучения индуцирует в клетках E. coli генные сети окисли тельного стресса и поддержания гомеостаза меди, ...

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Sandwich Hybridization Assay for Sensitive Detection of Dynamic Changes in mRNA Transcript Levels in Crude Escherichia coli Cell Extracts in Response to Copper Ions

Cited by 34 publications

References 25 publications

Compartment and signal-specific codependence in the transcriptional control of Salmonella periplasmic copper homeostasis

Compartment and signal-specific codependence in the transcriptional control of Salmonella periplasmic copper homeostasis

Survival of Escherichia coli Cells on Solid Copper Surfaces Is Increased by Glutathione

Escherichia coli stress response systems and their reaction to terahertz radiation

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