Studies on cytochrome c oxidase, XII. Isolation and primary structure of polypeptide VIb from bovine heart

The isolation and complete sequence analysis of the cytoplasmically synthesized polypeptide VIb from bovine heart cytochrome c oxidase is described. The protein is a stoichiometric constituent of the respiratory complex IV. Its primary structure is deduced from N-terminal sequencing and overlapping peptides obtained from tryptic cleavage and specific cleavage at arginyl and tryptophyl peptide bonds. The polypeptide chain consists of 84 amino acids from which a Mr of 9419 is derived. It has a relatively high content of histidine and proline and contains a single cysteine. A hydrophobic sequence of 20 amino acids points to a membrane-penetrating structure similar to that found in polypeptides I, II, III, IV and VIIIa, VIIIb, VIIIc of the bovine oxidase. The sequence of VIb is tissue-specific, it contributes to the formation of nuclear coded isoenzymes of cytochrome c oxidase. The protein thus may be involved in a tissue-specific regulation of cellular respiration.     

Studies on cytochrome c oxidase, IX. The primary structure of polypeptide VIa

The complete amino acid sequence of the cytoplasmic polypeptide VIa of cytochrome c oxidase from beef heart is described. The primary structure of this component of complex IV of the respiratory chain is elucidated by isolation and sequencing of overlapping glutamic acid, arginine, tryptophan and methionine fragments obtained by cleavage with Staphylococcus aureus protease, protease from submaxillaris glands of mice, 2-iodosylbenzoic acid and cyanogen bromide. The chain length of polypeptide VIa is 98 amino acids, the resulting molecular mass of 10670 Da. The hydrophilic protein does not contain a hydrophobic membrane penetrating sequence domain. Its function in the respiratory complex IV is unknown.     

Studies on cytochrome c oxidase, VIII. The amino acid sequence of polypeptide VII.

The sequence determination of polypeptide VII from beef heart cytochrome c oxidase is described. The amino acid sequence is deduced from overlapping tryptic peptides and peptides obtained after cleavage with Staphylococcus aureus protease. The protein consists of 85 amino acids corresponding to a Mr of 10026, in agreement with a value of 9500 obtained by sodium dodecyl sulfate gel electrophoresis. The amino acid sequence around the only methionine present is very similar to sequences around the invariant heme binding methionine of the cytochrome c family. This similarity suggests that the protein is one of the heme bindings subunits of the oxidase.     

Studies on cytochrome c oxidase, II. The chemical constitution of a short polypeptide from the beef heart enzyme.

A low molecular weight (approximately 6000) polypeptide fraction was isolated from beef heart cytochrome c oxidase, consisting of three peptides with the N-terminal end groups isoleucine, phenylalanine and serine. The complete amino acid sequence of the serine component is described. From the chemical constitution, a site-specific cleavage from a precursor protein and a possible function in membrane penetration and complex formation of the oxidase is inferred.     

The occurrence of beta-hydroxyaspartic acid in the vitamin K-dependent blood coagulation zymogens

The preliminary data on the amino acid sequence of subunit IV from bovine heart cytochrome oxidase (Albany) is presented. The subunit consists of 97 amino acids linked together in a single polypeptide chain. The sequence was established by the isolation, purification and sequencing of some of the tryptic, chymotryptic and thermolytic and Staphylococcus aureus protease peptides. This subunit is present in all cytochrome oxidase preparations. It corresponds to polypeptide VIa in cytochrome oxidase (Aachen) and subunit a in cytochrome oxidase (Eugene).     

Chromatographic and protein chemical analysis of the ubiquinol-cytochrome c2 oxidoreductase isolated from Rhodobacter sphaeroides

The ubiquinol-cytochrome c2 oxidoreductase (cytochrome bc1 complex) purified from chromatophores of Rhodobacter sphaeroides consists of four polypeptide subunits corresponding to cytochrome b, c1, and the Rieske iron-sulfur protein, as well as a 14-kDa polypeptide of unknown function, respectively. In contrast, the complex isolated from Rhodospirillum rubrum by the same procedure lacked a polypeptide corresponding to the 14-kDa subunit. Gel-permeation chromatography of the R. sphaeroides cytochrome bc1 complex in the presence of 200 mM NaCl removed the iron-sulfur protein, while the 14-kDa polypeptide remained tightly bound to the cytochromes; this is consistent with the possibility that the latter protein is an authentic component of the complex rather than an artifact of the isolation procedure. The individual polypeptides of the R. sphaeroides complex were purified to homogeneity by gel-permeation chromatography in the presence of 50% aqueous formic acid and their amino acid compositions determined. The 14-kDa polypeptide was found to be rich in charged and polar residues. Edman degradation analysis indicated that its N terminus is blocked and not rendered accessible by de-blocking procedures. Cyanogen bromide cleavage gave rise to a blocked N-terminal fragment as well as a C-terminal peptide comprising more than one-third of the protein. Gas-phase sequence analysis of this peptide established a sequence of 48 residues and identified a putative trans-membrane segment near the C terminus. The blocked N-terminal fragment was cleaved at tryptophan with BNPS-skatole. The resulting peptides, together with tryptic fragments derived from the intact protein, yielded additional sequence information; however, none of the sequences exhibited significant homologies to any known proteins. Tryptic fragments were also used to generate sequence information for cytochrome c1.     

Synthesis of a larger precursor for the subunit IV of rat liver cytochrome c oxidase in a cell-free wheat germ system

Poly(A)+RNA from phenol-extracted rat liver polysomes was translated in a heterologous cell-free system derived from wheat germ. The RNA stimulated the incorporation of [35S]methionine into proteins 20- to 30-fold. The labeled translation products were incubated with an antiserum against cytochrome c oxidase. After binding of the antigen x immunoglobulin complex to and elution from protein A-Sepharose and sodium dodecyl sulfate (SDS)-polyacrylamide step gel electrophoresis, autoradiography was carried out. Mainly one major protein with an apparent molecular weight of 19,500 was visualized. When the unlabeled individual cytochrome c oxidase subunits IV, V, VI, or VII, isolated from preparative SDS-polyacrylamide gels, were added to the translation mixture, it was found that only subunit IV could compete with the in vitro-synthesized protein of 19.5 kilodaltons in respect to the binding to the cytochrome c oxidase antiserum. The in vitro-synthesized product was 3,000 daltons larger than the cytochrome c oxidase subunit polypeptide IV. It is concluded that the subunit IV is synthesized as a precursor. Evidence for the precursor form was obtained from translation experiments with [35S]methionine bound to a specific initiator tRNA which led to a radioactively labeled product of identical electrophoretic mobility as the 19.5 kilodalton protein. Furthermore, two dimensional tryptic fingerprints of subunit IV and its precursor show a high degree of similarity.     

Detection of the mitochondrially encoded cytochrome c oxidase subunit I in the trypanosomatid protozoan Leishmania tarentolae. Evidence for translation of unedited mRNA in the kinetoplast

With the aim of identification of kinetoplast-encoded proteins we investigated the subunit composition of cytochrome c oxidase (respiratory complex IV) from kinetoplast mitochondria of the trypanosomatid protozoan Leishmania tarentolae. Eleven stoichiometric subunits were visible in Coomassie-stained, two-dimensional Blue Native/Tricine-SDS electrophoretic gels. Their partial amino acid sequences indicated that these polypeptides are nuclear-encoded. The mitochondrial subunit I was detected with the polyclonal antibodies against an internal region of this polypeptide. In two-dimensional (9 versus 14%) polyacrylamide glycine-SDS gels this subunit is found as a series of spots located off the main diagonal, a property that can be explained by abnormal electrophoretic migration and aggregation. In gels loaded with high amounts of the purified, enzymatically active oxidase, the subunit I spots could be visualized by staining. The determined N-terminal amino acid sequence of the putative monomeric subunit I (MFXLCLVCLSVS) matched with the predicted sequence, thus indicating that the corresponding kinetoplast unedited mRNA is translated into a functional protein.     

Studies on cytochrome c oxidase, V. Polypeptide IV: alignment and amino acid sequences on cyanogen bromide fragments.

The isolation and chemical characterization of polypeptide IV from beef heart cytochrome oxidase is described. The protein is one of the main (stoichiometric) components of the oxidase. It is the largest polypeptide of the enzyme synthezised in the cytoplasm and has, as such, also been identified in enzyme preparations from yeast and Neurospora. A partial sequence, consisting of 105 amino acid residues which give a frame work of the covalent structure of the polypeptide is obtained from N- anc C-terminal sequencing and from the cyanogen bromide fragments of the chain. The isolation and sequencing of the fragments of this membrane protein are discussed.     

Characterization of a cDNA encoding subunit VI of cytochrome c oxidase from the slime mold Dictyostelium discoideum.

The primary structure of subunit VI of cytochrome c oxidase from the slime mold Dictyostelium discoideum has been determined by sequencing cDNA and N-terminus of the protein. The 92 amino acid residues long polypeptide (Mr = 10,535) shows homology with subunit IV of mammalian and subunit V of yeast cytochrome c oxidase. Though smaller and synthesized without a cleavable presequence, the slime mold oxidase subunit maintains the presence of a putative membrane spanning region.     

Immunological and chemical characterization of rat liver cytochrome c oxidase

Rat liver cytochrome c oxidase (ferrocytochrome c: oxygen oxidoreductase; EC 1.9.3.1) was separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis into 12 different polypeptide chains. Specific antisera against the holoenzyme and against purified subunits IV and VIII were used to characterize the enzyme complex. The antiserum against subunit IV precipitates from sodium dodecyl sulfate-dissociated mitochondria only subunit IV and from Triton X-100-dissolved mitochondria all 12 polypeptide chains, indicating their integral location within the enzyme complex. Different antisera against the holoenzyme only precipitate subunits IV, V and VIb from sodium dodecyl sulfate-dissociated mitochondria, suggesting the location of these subunits on the surface layer of the complex. Subunit VIII is thought to be located within the complex, since a specific antiserum does not precipitate the complex. The amino acid composition of all 12 protein subunits is different, thus excluding their origin from proteolytic degradation. The proteolytic degradation of subunit IV into IV during isolation of the enzyme was corroborated by the very similar amino acid composition of both proteins.     

Studies on cytochrome c oxidase, IV[1--3]. Primary structure and function of subunit II.

The amino acid sequence of polypeptide II from beef heart cytochrome c oxidase is described. Comparision of this primary structure with those of azurins, plastocyanins and stellacyanins reveals clear homologies among them. Thus subunit II of the oxidase is a member of this copper protein family. The sequence homology indicates a copper binding site consisting of two invariant histidines and two sulfur-containing amino acids. Thus subunit II is like a blue copper protein with type I copper.     

The most conserved nuclear-encoded polypeptide of cytochrome c oxidase is the putative zinc-binding subunit: primary structure of subunit V from the slime mold Dictyostelium discoideum.

A full-length 515 base pairs cDNA for cytochrome c oxidase subunit V of D. discoideum was isolated from a lambda gt11 expression library. The encoded polypeptide, whose identity was confirmed by partial protein sequencing, is 119 amino acids long (Mr = 13,352) and does not contain a cleavable presequence. The protein, which is homologous to human subunit Vb and yeast subunit IV, exhibits the highest degree of sequence conservation found among nuclear-encoded subunits of cytochrome c oxidase from distantly related organisms. All the invariant residues are clustered in two regions of the C-terminus which include the putative amino acids involved in the coordination of the Zn ion tightly associated to eukaryotic oxidase.     

The polypeptides COX2A and COX2B are essential components of the mitochondrial cytochrome c oxidase of Toxoplasma gondii

Two genes encoding cytochrome c oxidase subunits, Cox2a and Cox2b, are present in the nuclear genomes of apicomplexan parasites and show sequence similarity to corresponding genes in chlorophycean algae. We explored the presence of COX2A and COX2B subunits in the cytochrome c oxidase of Toxoplasma gondii. Antibodies were raised against a synthetic peptide containing a 14-residue fragment of the COX2A polypeptide and against a hexa-histidine-tagged recombinant COX2B protein. Two distinct immunochemical stainings localized the COX2A and COX2B proteins in the parasite's mitochondria. A mitochondria-enriched fraction exhibited cyanide-sensitive oxygen uptake in the presence of succinate. T. gondii mitochondria were solubilized and subjected to Blue Native Electrophoresis followed by second dimension electrophoresis. Selected protein spots from the 2D gels were subjected to mass spectrometry analysis and polypeptides of mitochondrial complexes III, IV and V were identified. Subunits COX2A and COX2B were detected immunochemically and found to co-migrate with complex IV; therefore, they are subunits of the parasite's cytochrome c oxidase. The apparent molecular mass of the T. gondii mature COX2A subunit differs from that of the chlorophycean alga Polytomella sp. The data suggest that during its biogenesis, the mitochondrial targeting sequence of the apicomplexan COX2A precursor protein may be processed differently than the one from its algal counterpart.     

Structure of the cytochrome c oxidase complex of rat liver. 2. Topological orientation of polypeptides in the membrane as studied by proteolytic digestion and immunoblotting

The orientation of the thirteen polypeptides of rat-liver cytochrome c oxidase in the inner mitochondrial membrane was studied by proteolytic digestion of mitoplasts and sonicated particles. After separation by sodium dodecylsulfate gel electrophoresis proteins were transferred on nitrocellulose, and individual polypeptides were identified by incubation with polypeptide-specific antisera, followed by fluorescein-isothiocyanate-conjugated protein A. The three catalytic polypeptides I-III and seven nuclear coded polypeptides (IV, Vb, VIa, VIc, VIIa, VIIb and VIII) were found accessible to proteases from the cytoplasmic phase. Polypeptides II, IV, Va, Vb and VIa were accessible from the matrix phase, indicating a transmembraneous orientation of polypeptides II, IV, Vb and VIa. Together with data on cross-linking and on cytochrome-c-protected labeling of polypeptides, a model of the cytochrome c oxidase complex was developed. It is suggested that the cytochrome c binding site on polypeptide II is surrounded by several nuclear-coded polypeptides, which may modulate the affinity of the enzyme towards cytochrome c.     

Studies on cytochrome-c oxidase, XIII. Amino-acid sequence of the small membrane polypeptide VIIIc from bovine heart respiratory complex IV

The isolation and complete amino-acid sequence analysis of the cytoplasmically synthesized polypeptide VIIIc from bovine heart cytochrome-c oxidase is described. The protein is a stoichiometric constituent of the mitochondrial respiratory complex IV. Its primary structure is deduced from N-terminal sequencing and peptides obtained by enzymatic cleavage with Staphylococcus aureus proteinase and chemical cleavage with cyanogen bromide. The small protein consists of 56 amino acids summing up to a total Mr of 6243. From position 34 to 51 the chain contains a hydrophobic sequence of 18 residues. This probably membrane-spanning segment also contains the 2 cysteine residues of the chain. The function of this subunit in the respiratory complex IV is still unknown.     

Studies on cytochrome c oxidase, I. Purification and characterization of bovine myocardial enzyme and identification of peptide chains in the complex]

As part of the preliminary work for the structural elucidation of cytochrome c oxidase, the enzyme complex was isolated from bovine heart muscle and characterised chemically. The enzyme contains 10-11 nmol haem a, and 12-13 nmol copper per mg protein. The solubilised active enzyme also contains 5% phospholipid, comprising about 2 mol each of cardiolipin and phosphatidylethanolamine per mol haem a. In addition, the preparation contains a small number of detergent molecules (Tween-80). Eight polypeptide components were isolated by preparative dodecylsulphate gel electrophoresis, gel filtration on Biogel P-60, and counter current distribution. The apparent molecular weights of these components were I - 36 000, II - 28 000 (21 000), III - 19 000, IV - 14 000, V - 12 500, VI - 11 000, VII - 10 000 and VIII - 6000. At least seven intact polypeptide chains contribute to the structure of the enzyme complex of the terminal oxidase. On the basis of amino acid analysis and end group determination, they can be divided into two groups. The high molecular weight peptides I -III are hydrophobic and their amino acid compositions differ markedly from those of known enzyme proteins, especially with respect to their contents of leucine and methionine. Components I and II have formyl methionine at their N-termini. They are therefore possibly mitochondrial membrane components from complex 4 of the respiratory chain. Polypeptides IV - VII resemble functional enzyme subunits in their amino acid composition. Some of them possess free N-termini (alanine). The low molecular weight component VIII is heterogeneous and contains the N-terminal amino acids isoleucine, serine and phenylelanine in non-stoichiometric amounts. Analysis gives a minimal protein molecular weight of 130 000 (65 000 per haem a) for the two haem and two copper-containing "monomers". The molecular weight of the moiety preliminarily defined as enzymatic is about 48 000. The chemical characterisation provides data for the strategy of the subsequent sequence analysis of the polypeptides.     

Subunit IV of human cytochrome c oxidase, polymorphism and a putative isoform.

As part of our study of isoenzyme forms of human cytochrome c oxidase, we purified subunit IV from human heart and skeletal muscle with reversed-phase HPLC and determined the N-terminal amino acid sequences and the electrophoretic mobility. The N-terminus of human heart subunit IV proved to be ragged with 30% of the protein lacking the first three residues. Also a Tyr/Phe polymorphism was observed at residue 16. No differences in N-terminal sequence and electrophoretic mobility were observed between subunit IV of cytochrome c oxidase from human heart and skeletal muscle. Therefore, our results suggest that identical subunits IV are present in cytochrome c oxidase from human heart and skeletal muscle. A putative isoform of subunit IV with a blocked N-terminus was purified from human heart cytochrome c oxidase, which proved to have a different retention time on a reversed-phase column and also a slightly higher electrophoretic mobility on an SDS-polyacrylamide gel compared to the native subunit IV. We could not demonstrate the existence of isoforms of subunit IV in human skeletal muscle.     

Large-scale purification and characterization of a highly active four-subunit cytochrome bc1 complex from Rhodobacter sphaeroides

A highly active, large-scale preparation of ubiquinol:cytochrome c2 oxidoreductase (EC 1.10.2.2; cytochrome bc1 complex) has been obtained from Rhodobacter sphaeroides. The enzyme was solubilized from chromatophores by using dodecyl maltoside in the presence of glycerol and was purified by anion-exchange and gel filtration chromatography. The procedure yields 35 mg of pure bc1 complex from 4.5 g of membrane protein, and its consistently results in an enzyme preparation that catalyzes the reduction of horse heart cytochrome c with a turnover of 250-350 (mumol of cyt c reduced).(mumol of cyt c1)-1.s-1. The turnover number is at least double that of the best preparation reported in the literature [Ljungdahl, P. O., Pennoyer, J. D., Robertson, D. C., & Trumpower, B. L. (1987) Biochim. Biophys. Acta 891, 227-241]. The scale is increased 25-fold, and the yield is markedly improved by using this protocol. Four polypeptide subunits were observed by SDS-PAGE, with Mr values of 40K, 34K, 24K, and 14K. N-Terminal amino acid sequences were obtained for cytochrome c1, the iron-sulfur protein subunit, and for cytochrome b and were identical with the expected protein sequences deduced from the DNA sequence of the fbc operon, with the exceptions that a 22-residue fragment is processed off of the N-terminus of cytochrome c1 and the N-terminal methionine residue is cleaved off both the b cytochrome and iron-sulfur protein subunits. Western blotting experiments indicate that subunit IV is not a contaminating light-harvesting complex polypeptide.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nucleotide sequence of a cDNA coding for the mitochondrial precursor protein of cytochrome c oxidase subunit IV from the slime mold Dictyostelium discoideum.

Subunit-specific polyclonal antibodies were used to isolate cDNA clones encoding subunit IV of Dictyostelium discoideum cytochrome c oxidase. DNA sequence analysis reveals an open reading frame of 149 amino acids. As shown by sequencing of the protein N-terminus, the subunit is synthesized with a 24 residue cleavable presequence which leads to a mature polypeptide of 14305 Da. The slime mold subunit exhibits a low but significant degree of similarity with subunit Va of human and subunit VI of yeast cytochrome c oxidase.