Two Menkes-type ATPases Supply Copper for Photosynthesis inSynechocystis PCC 6803

Tottey, Stephen; Rich, Peter R.; Rondet, Sabine; Robinson, Nigel J.

doi:10.1074/jbc.m011243200

Cited by 141 publications

(196 citation statements)

References 26 publications

(31 reference statements)

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“…Similarly, AtHMA5, AtHMA6/PAA1, and OsHMA5 have been shown to participate in intracellular copper sequestration when expressed in the ⌬ccc2 yeast strain, lacking the Golgi-resident endogenous copper Cu ϩ /Ag ϩ -ATPase Ccc2p (12,18,45). According to available data, P 1B1 -ATPases participate in the maintenance of copper homeostasis either through the import of copper into the cell (PCC7942 and PCC6803 in cyanobacteria Synechococcus and Synechocystis, respectively) and intracellular compartments to supply copper to copper-dependent enzymes (ATP7A, ATP7B, Ccc2p, AtHMA6/PAA1, AtHMA8/PAA2, and AtHMA7/RAN1) or through the active efflux of copper out of the cell (CopA, OsHMA5) (12,18,56,57). In addition, our study provides the first evidence for the involvement of P 1B1 -ATPases in the active influx of copper into vacuoles.…”

Section: Discussionmentioning

confidence: 99%

Functional and Biochemical Characterization of Cucumber Genes Encoding Two Copper ATPases CsHMA5.1 and CsHMA5.2

Migocka¹,

Posyniak²,

Maciaszczyk-Dziubińska³

et al. 2015

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

Functional and Biochemical Characterization of Cucumber Genes Encoding Two Copper ATPases CsHMA5.1 and CsHMA5.2

Migocka¹,

Posyniak²,

Maciaszczyk-Dziubińska³

et al. 2015

Journal of Biological Chemistry

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“…Nutritional metals, such as manganese, copper, cobalt, and zinc are available as the divalent cation in aerobic environments, and are thus soluble. Whereas cytoplasmic (inner) membrane transporters of free metal ions are well characterized in bacteria (9)(10)(11)(12), translocation across the outer membrane and into the periplasm has not been described. In principle, outer membrane pores with no or low selectivity should readily accommodate the diffusion of these small, soluble nutrients that are needed only in low quantities (4,5).…”

mentioning

confidence: 99%

Bacterial outer membrane channel for divalent metal ion acquisition

Hohle

Franck

Stacey

et al. 2011

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

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The prevailing model of bacterial membrane function predicts that the outer membrane is permeable to most small solutes because of pores with limited selectivity based primarily on size. Here, we identified mnoP in the Gram-negative bacterium Bradyrhizobium japonicum as a gene coregulated with the inner membrane Mn 2+ transporter gene mntH. MnoP is an outer membrane protein expressed specifically under manganese limitation. MnoP acts as a channel to facilitate the tranlocation of Mn 2+ , but not Co 2+ or Cu 2+ , into reconstituted proteoliposomes. An mnoP mutant is defective in high-affinity Mn 2+ transport into cells and has a severe growth phenotype under manganese limitation. We suggest that the outer membrane is a barrier to divalent metal ions that requires a selective channel to meet the nutritional needs of the cell.

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“…hirae CopB [2], E. coli CopA, Synechococcus elongates PacS and Synechococcus sp. CtaA [20] were retrieved via the National Center for Biotechnology Information (NCBI) website (http://www.ncbi.nlm.nih.gov/). Sequences were aligned using PRALINEPSI strategy of the freely available PRALINE http://www.ibi.vu.nl/programs/pralinewww/ [21].…”

Section: Discussionmentioning

confidence: 99%

“…coli CopA, Synechococcus elongates PacS and Synechococcus sp. CtaA [20] ranged from 37 -46%. Furthermore, eight membrane-spanning helices were predicted in M. capsulatus CopA.…”

Section: ) Bioinformatic Analyses and Protein Topology Of Copa Protementioning

confidence: 99%

“…In support of that, Ent. hirae CopB which did not confer silver resistance to cells, could transport copper and silver in vivo with similar rate [2], [20] . This is also indicated that some P-type ATPases share substrate specificity for copper and silver due to chemical similarities between these metals [5] ΔcopA1 mutant accumulated only half the copper concentration of the wild-type.…”

Section: ) Bioinformatic Analyses and Protein Topology Of Copa Protementioning

confidence: 99%

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Mutagenesis of a Copper P-Type ATPase Encoding Genein Methylococcus capsulatus (Bath) Results inCopper-Resistance

Khalifa¹

2013

IJBBB

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Abstract-Copper is an essential micronutrient for all living cells, however, it is extremely toxic at high concentrations and thus copper homeostasis is required to be tightly regulated. copA encodes for a copper-translocating P-type ATPase (CopA) and plays a vital role in copper homeostasis and is involved in copper transport across membranes of many organisms. Little is known about copper homeostasis in Methylococcus capsulatus although copper has a significant physiological role in this methanotroph. In this study we investigated the disruption of a CopA1 homologue (MCA2072; copA1) in M. capsulatus (Bath) by insertional inactivation mutagenesis. The resulting mutant, M. capsulatus ΔcopA1, was copper resistant to elevated copper concentrations (100 µM) than the wild-type strain (80 µM). Furthermore, the intracellular copper measurements revealed that ΔcopA1 accumulated half the amount of copper when compared with the wild-type. No observed phenotypic difference between the mutant strain and wild-type related to growth at different silver concentrations. These observations suggest that M. capsulatus CopA1 has a key role in copper homeostasis.

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Two Menkes-type ATPases Supply Copper for Photosynthesis inSynechocystis PCC 6803

Cited by 141 publications

References 26 publications

Functional and Biochemical Characterization of Cucumber Genes Encoding Two Copper ATPases CsHMA5.1 and CsHMA5.2

Functional and Biochemical Characterization of Cucumber Genes Encoding Two Copper ATPases CsHMA5.1 and CsHMA5.2

Bacterial outer membrane channel for divalent metal ion acquisition

Mutagenesis of a Copper P-Type ATPase Encoding Genein Methylococcus capsulatus (Bath) Results inCopper-Resistance

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