Transport of Na+ and K+ by an antiporter-related subunit from the Escherichia coli NADH dehydrogenase I produced in Saccharomyces cerevisiae

Gemperli, Anja C.; Schaffitzel, Christiane; Jakob, Claude A.; Steuber, Julia

doi:10.1007/s00203-007-0272-3

Cited by 19 publications

(14 citation statements)

References 53 publications

(56 reference statements)

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“…Thus it is likely that 333 AFF in NuoL could be an EIPA binding site. This assumption can well be supported by previous reports: (i) the photoaffinity labeling of the bovine ND5 subunit by the fenpyroximate analog was almost completely blocked by EIPA (18); (ii) reconstituted C-terminally truncated E. coli NuoL subunit (NuoL(N)) facilitated the uptake of Na ϩ into the proteoliposomes, and this Na ϩ uptake was inhibited by EIPA (62); (iii) the Na ϩ uptake by membrane vesicles containing overexpressed Protein A fused NuoL(N) from the yeast Saccharomyces cerevisiae endoplasmic reticulum was inhibited by EIPA (63).…”

Section: Discussionmentioning

confidence: 99%

The Membrane Subunit NuoL(ND5) Is Involved in the Indirect Proton Pumping Mechanism of Escherichia coli Complex I

Nakamaru‐Ogiso

Kao

Chen

et al. 2010

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

The Membrane Subunit NuoL(ND5) Is Involved in the Indirect Proton Pumping Mechanism of Escherichia coli Complex I

Nakamaru‐Ogiso

Kao

Chen

et al. 2010

Journal of Biological Chemistry

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“…Escherichia coli K‐12 strain DH5α or BL21 (DE3) (Hanahan, 1983) (MBI Fermentas) served as the host for the amplification of plasmids that conferred ampicillin resistance. The synthetic MT‐ND5 gene (Eurofins Medigenomix) was cloned into plasmid pNLt1 (Gemperli et al , 2007) at SalI restriction sites. The sfgfp gene encoding for an engineered superfolding green fluorescent protein (GFP) (Pedelacq et al , 2006) was amplified using the PCR primers 5′‐AAAATAGCGGCCGC ACTAGTATGAGCAAAGGAG ‐3′ (forward) and 5′‐TCAGCCGAATTC TTGTAGAGTTCATCCATGCCATG ‐3′ (reverse) and inserted at NotI and EcoRI restriction sites of pNLt1 to generate plasmid pG5N (Table 1).…”

Section: Methodsmentioning

confidence: 99%

“…This strain is furthermore deficient in endoproteinases A and B, which diminishes proteolytic degradation (Jones, 1991). Cells were grown as described previously (Gemperli et al , 2007). GAL1 ‐controlled expression of the ND5 fusion proteins was induced by transfer to minimal YNB medium (0.67% yeast–nitrogen base with supplementary amino acids and adenine) containing 2% galactose for 27 h (mid‐log phase) before harvesting.…”

Section: Methodsmentioning

confidence: 99%

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Organelle-specific expression of subunit ND5 of human complex I (NADH dehydrogenase) alters cation homeostasis in Saccharomyces cerevisiae

Steffen

Gemperli

Cvetešić

et al. 2010

FEMS Yeast Research

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The ND5 component of the respiratory complex I is a large, hydrophobic subunit encoded by the mitochondrial genome. Its bacterial homologue, the NDH-1 subunit NuoL, acts as a cation transporter in the absence of other NDH-1 subunits. Mutations in human ND5 are frequently observed in neurodegenerative diseases. Wild type and mutant variants of ND5 fused to GFP or a FLAG peptide were targeted to the endoplasmatic reticulum (ER) or the inner mitochondrial membrane of Saccharomyces cerevisiae, which lacks an endogenous complex I. The localization of ND5 fusion proteins was confirmed by microscopic analyses of S. cerevisiae cells, followed by cellular fractionation and immunostaining. The impact of the expression of ND5 fusion proteins on the growth of S. cerevisiae in the presence and absence of added salts was studied. ER-resident ND5 conferred Li(+) sensitivity to S. cerevisiae, which was lost when the E145V variant of ND5 was expressed. All variants of ND5 tested led to increased resistance of S. cerevisiae at high external concentrations of Na(+) or K(+). The data seem to indicate that ND5 influences the salt homeostasis of S. cerevisiae independent of other complex I subunits, and paves the way for functional studies of mutations found in mitochondrially encoded complex I genes.

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“…20 The whole NuoL, fused with a protein A domain, has thereafter been produced in yeast endoplasmatic reticulum with seemingly retained functionality. 21 Other studies of the NuoL, NuoM, or NuoN subunit function have been performed by modifying the chromosomally located genes. [22][23][24][25] Here, we present protein constructs where the C-terminal end of the Complex I subunits NuoH, NuoL, NuoM, and NuoN from E. coli have been genetically fused to a cytochrome c domain (Fig.…”

Section: Introductionmentioning

confidence: 99%

A cytochrome c fusion protein domain for convenient detection, quantification, and enhanced production of membrane proteins in Escherichia coli—Expression and characterization of cytochrome‐tagged Complex I subunits

et al. 2010

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Overproduction of membrane proteins can be a cumbersome task, particularly if high yields are desirable. NADH:quinone oxidoreductase (Complex I) contains several very large membrane-spanning protein subunits that hitherto have been impossible to express individually in any appreciable amounts in Escherichia coli. The polypeptides contain no prosthetic groups and are poorly antigenic, making optimization of protein production a challenging task. In this work, the Cterminal ends of the Complex I subunits NuoH, NuoL, NuoM, and NuoN from E. coli Complex I and the bona fide antiporters MrpA and MrpD were genetically fused to the cytochrome c domain of Bacillus subtilis cytochrome c 550 . Compared with other available fusion-protein tagging systems, the cytochrome c has several advantages. The heme is covalently bound, renders the proteins visible by optical spectroscopy, and can be used to monitor, quantify, and determine the orientation of the polypeptides in a plethora of experiments. For the antiporter-like subunits NuoL, NuoM, and NuoN and the real antiporters MrpA and MrpD, unprecedented amounts of holo-cytochrome fusion proteins could be obtained in E. coli. The NuoHcyt polypeptide was also efficiently produced, but heme insertion was less effective in this construct. The cytochrome c 550 domain in all the fusion proteins exhibited normal spectra and redox properties, with an E m of about 1170 mV. The MrpA and MrpD antiporters remained functional after being fused to the cytochrome c-tag. Finally, a his-tag could be added to the cytochrome domain, without any perturbations to the cytochrome properties, allowing efficient purification of the overexpressed fusion proteins.

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Transport of Na+ and K+ by an antiporter-related subunit from the Escherichia coli NADH dehydrogenase I produced in Saccharomyces cerevisiae

Cited by 19 publications

References 53 publications

The Membrane Subunit NuoL(ND5) Is Involved in the Indirect Proton Pumping Mechanism of Escherichia coli Complex I

The Membrane Subunit NuoL(ND5) Is Involved in the Indirect Proton Pumping Mechanism of Escherichia coli Complex I

Organelle-specific expression of subunit ND5 of human complex I (NADH dehydrogenase) alters cation homeostasis in Saccharomyces cerevisiae

A cytochrome c fusion protein domain for convenient detection, quantification, and enhanced production of membrane proteins in Escherichia coli—Expression and characterization of cytochrome‐tagged Complex I subunits

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