Purified subunit δ of chloroplast coupling factor CF<sub>1</sub> reconstitutes photophosphorylation in partially CF<sub>1</sub>‐depleted membranes

Engelbrecht, Siegfried; Junge, Wolfgang

doi:10.1111/j.1432-1033.1988.tb13875.x

Cited by 29 publications

(14 citation statements)

References 45 publications

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“…F,(-e) was substituted with a 20-fold molar excess of TFPAM-3-modified c. NaBr-treated spinach chloroplasts (1471, 300 pg chlorophyll) were reconstituted with 300 pg of F,(-E) + e in the presence of 10 mM MgC1,. After washing to remove unbound protein, the samples were illuminated for 10 min at 312 nm on a transilluminator followed by extraction of the reconstituted Measurement of Ca'+-ATPase and Mg'+-ATPase activities of soluble F,, phosphate assays [42,49,531, and protein determination [54] were performed according to published procedures. Protein determinations [54] overestimated concentrations of t' by 18% (as determined by amino acid composition) and were corrected accordingly.…”

Section: 5'-dithiobis(2-nitrobenzoic Acid) (Ellman's Reagent) Was Omentioning

confidence: 99%

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Schulenberg

Wellmer

Lill

et al. 1997

European Journal of Biochemistry

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Cys residues were directed into positions 17, 28, 41 and 85 of a Cysb--+Ser mutant of subunit E of spinach chloroplast F,,F, ATP synthase. Wild-type and engineered E were expressed in Escherichia coli, purified in the presence of urea, refolded and reassembled with spinach chloroplast F, lacking the E subunit [F, (-e)]. Cys-containing c variants were modified with a sulfhydryl-reactive photolabile crosslinker. Photocross-linking o f c to F,(-E) yielded the same SDS gel pattern of cross-link products independent of the presence or absence of MgZ+ . ADP, phosphate and Mg" . ATP. Functional reconstitution of photophosphorylation in F,-depleted thylakoids was observed with F, in which 1' was cross-linked to [Ser6,Cys28]c or (Ser6,Cys41]c but not with wild-type E. In view of the intersubunit rotation of y relative to ( @ ) 3 , which is driven by ATP hydrolysis, 7 and E would seem to act concertedly a~ parts of the 'rotor' relative to the 'stator' (c$)?.

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Section: 5'-dithiobis(2-nitrobenzoic Acid) (Ellman's Reagent) Was Omentioning

confidence: 99%

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Schulenberg

Wellmer

Lill

et al. 1997

European Journal of Biochemistry

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“…The E. coli 8 subunit has been shown to be involved in the attachment of F1 to Fo in reconstitution studies (19). Additionally, in chloroplasts, the 8 subunit has been shown to block the proton channel and to restore photophosphorylation to partially stripped thylakoid membranes (5,6,13 (14).…”

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Effect of the delta subunit on assembly and proton permeability of the F0 proton channel of Escherichia coli F1F0 ATPase

Angov

Brusilow

1991

J Bacteriol

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During the assembly of the Escherichia coli proton-translocating ATPase, the subunits of F1 interact with Fo to increase the proton permeability of the transmembrane proton channel. We tested the involvement of the 8 subunit in this process by partially and completely deleting uncH (8 subunit) (14).Plasmid constructions. The plasmids used in these studies are diagrammed in Fig. 1. Plasmids pWSB35, pRPG28, pRPG23, and pRPG51 have been described previously (2, 10). Plasmid pTN1 was constructed by digesting pWSB35 with NruI and religating. The resultant plasmid, pTN1, coded for the Fo genes uncB, uncE, and uncF and more than half of uncH. Plasmid pTN2 was constructed by digesting pWSB35 with BamHI and religating, resulting in a 617-bp deletion within uncB. Plasmid pEA4 was constructed by using site-directed mutagenesis to insert a Sall site within the second codon of uncH. A 1,499-bp BamHI-EcoRI fragment which carried uncE, uncF, and uncH (c, b, and 8 subunits) was cloned from pRPG23 into M13mpl8. A 36-base synthetic oligonucleotide (5'-GGAGGGAGGGGCT GATGTCGACTTTATTACGGTAGC-3') was annealed to single-stranded DNA isolated from phage produced by cells containing the resultant recombinant phage DNA. This primer contains a sequence complementary to the unc sequence around the ribosome-binding site and initiation codon for uncH, except that it contains a single-base deletion at base 6 (T) of uncH and a single-base substitution at base 9 (A to C) of uncH. We used the Amersham mutagenesis kit (Amersham Corp.) to replace the wild-type uncH sequence with this mutagenized sequence, which resulted in the creation of a Sall site within the second codon of uncH.The BamHI-SalI fragment (containing all of uncE) from the mutagenized plasmid was sequenced in its entirety to ensure the absence of other mutations. This fragment was then cloned into plasmid pTN2, which had been digested with BamHI and Sall, to

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“…a) When freshly prepared chloroplast 6 was added to EDTA-treated spinach thylakoids, it restored photophosphorylation. This ability was rapidly lost upon storage of 6 and the loss of activity seemed to involve conformational transitions of isolated 6 [31]. Most of the chloroplast 6 that was used in this work had been stored at -20" C or -196" C and did not restore photophosphorylation by itself.…”

Section: Discussionmentioning

confidence: 99%

“…Our previous work on chloroplast CFoCFl has demonstrated the ability of purified subunit 6 to restore phenazinemethosulfate-mediated cyclic photophosphorylation in partially CF,-depleted vesicles from spinach thylakoids [31]. This action was due to the fact that 6 plugged the protonic leak conductance of a small fraction of 'exposed' CFo which were in a high conductance form [8, 27, 331 (see below).…”

Section: Discussionmentioning

confidence: 99%

“…Only for EFoEFl has this conclusion survived the test of time; for CFoCFl it was clearly demonstrated that 6 is not required for rebinding of CFl to CF, [25]. By various approaches it was shown that chloroplast 6 controls proton flow: when isolated and added back to partially CF1-depleted membranes, it can keep the proton pore through CFo closed [26-331. Thus at least chloroplast 6 fulfills a functional and not merely structural role [31,321. The structural role of E. coli 6 in the association of EFl with EFo does not exclude an additional functional role though, and this has been suggested [34, 351. It was interesting to compare E. coli 6 and chloroplast 6 directly in mixed reconstitution experiments, adding CF1 (-6)+E.…”

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Cross‐reconstitution of the F_OF₁‐ATP synthases of chloroplasts and Escherichia coli with special emphasis on subunit δ

Engelbrecht

Deckers-Hebestreit

Altendorf

et al. 1989

European Journal of Biochemistry

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FoF1-ATP synthases catalyse ATP formation from ADP and Pi by using the free energy supplied by the transmembrane electrochemical potential of the proton. The 6 subunit of F1 plays an important role at the interface between the channel portion Fo and the catalytic portion F1. In chloroplasts it can plug the protonic conductance of CF, and in Escherichia coli it is required for binding of EF, to EFo.We wanted to know whether or not 6 of one species was effective between Fo and F1 of the other species and vice versa. To this end the respective coupling membrane (thylakoids, everted vesicles from E. coli) was (partially) depleted of F1 and purified F1, F1(-6), and 6 were added in various combinations to the F,-depleted membranes.The efficiency or reconstitution was measured in thylakoids via the rate of phenazinemethosulfate-mediated cyclic photophosphorylation and in E. coli everted vesicles via the degree of 9-amino-6-chloro-2-methoxyacridine fluorescence quenching.Addition of CF1 to partially CF1-depleted thylakoid vesicles restored photophosphorylation to the highest extent. CF1(-6)+chloroplast 6, EF1, EF1(-6)+E. coli 6 were also effective but to lesser extent. CF1(-6)+E. coli 6 and EF1(-6) +chloroplast 6 restored photophosphorylation to a small but still significant extent. With F1-depleted everted vesicles prepared by repeated EDTA treatment of E. coli membranes, addition of CFl, CF1(-6) +chloroplast 6 and CF1(-6) + E. coli 6 gave approximately half the extent of 9-amino-6-chloro-2-methoxyacridine fluorescence quenching as compared to EF1 or EF1(-6)+E. coli 6 by energization of the vesicles with NADH, while EF1(-6) +chloroplast 6 was ineffective. All 'mixed' combinations were probably reconstitutively active only by plugging the protonic leak through the exposed Fo (structural reconstitution) rather than by catalytic activity. Nevertheless, the cross-reconstitution is stunning in view of the weak sequence similarity between chloroplast 6 and E. coli 6. It favors a role of 6 as a conformational transducer rather than as a proton conductor between Fo and F1.ATP synthesis in thylakoids, mitochondria, and in various microorganisms is mediated by FoF1-ATP synthases. These form a class of closely related enzymes consisting of a membrane-embedded Fo portion, an extrinsic F1 part and possibly a connecting stalk. Such a stalk was observed already in 1964 in electron microscopic studies of mitochondria1 inner membranes by Fernandez-Moran et al. [l] and recently the concept of a stalk has been 'revived' by Gogol et al. [2]. ATP synthesis is thought to occur spontaneously, the energy-requiring step being product release. Three different Correspondence to S. Engelbrecht,

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Purified subunit δ of chloroplast coupling factor CF₁ reconstitutes photophosphorylation in partially CF₁‐depleted membranes

Cited by 29 publications

References 45 publications

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Effect of the delta subunit on assembly and proton permeability of the F0 proton channel of Escherichia coli F1F0 ATPase

Cross‐reconstitution of the F_OF₁‐ATP synthases of chloroplasts and Escherichia coli with special emphasis on subunit δ

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Purified subunit δ of chloroplast coupling factor CF1 reconstitutes photophosphorylation in partially CF1‐depleted membranes

Cited by 29 publications

References 45 publications

Cross‐Linking of Chloroplast F0F1‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Cross‐Linking of Chloroplast F0F1‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Effect of the delta subunit on assembly and proton permeability of the F0 proton channel of Escherichia coli F1F0 ATPase

Cross‐reconstitution of the FOF1‐ATP synthases of chloroplasts and Escherichia coli with special emphasis on subunit δ

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Purified subunit δ of chloroplast coupling factor CF₁ reconstitutes photophosphorylation in partially CF₁‐depleted membranes

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Cross‐Linking of Chloroplast F₀F₁‐ATPase Subunit ɛ to γ Without Effect on Activity ɛ and γ are Parts of the Rotor

Cross‐reconstitution of the F_OF₁‐ATP synthases of chloroplasts and Escherichia coli with special emphasis on subunit δ