Propionyl-CoA condensing enzyme from Ascaris muscle mitochondria. I. Isolation and characterization of multiple forms

The condensation of two propionyl-CoA units or a propionyl-CoA with acetyl-CoA is required for the synthesis of 2-methylvalerate or 2-methylbutyrate, respectively, two of the major fermentation products of Ascaris anaerobic muscle metabolism. An enzyme that preferentially catalyzes the condensation of propionyl-CoA rather than acetyl-CoA has been purified from the mitochondria of the parasitic intestinal nematode Ascaris lumbricoides var. suum. The purified enzyme is over 10 times more active with propionyl-CoA than with acetyl-CoA as substrate. It also catalyzes the coenzyme A-dependent hydrolysis of acetoacetyl-CoA at a rate four times higher than the propionyl-CoA condensation reaction. The purified Ascaris condensing enzyme preferentially forms the 2-methyl-branched-chain keto acids rather than the corresponding straight chain compounds. The native molecular weight of the purified enzyme was estimated to be 160,000 by gel filtration chromatography and 158,000 by high pressure liquid chromatography. The enzyme migrated as a single protein band with Mr 40,000 during sodium dodecyl sulfate-polyacrylamide electrophoresis, indicating that the enzyme is composed of four subunits of the same molecular weight. Chromatography on CM-sephadex resulted in the isolation of two separate peaks of activity, designated as A and B. Both A and B had the same molecular weight and subunit composition. However, they differed in their specific activities and isoelectric points. The pIs of condensing enzymes A and B were 7.6 and 8.4, respectively. Propionyl-CoA was the best substrate for the condensation reaction with both enzymes. However, the specific activity of enzyme B for both propionyl-CoA condensation (3.4 mumol/min/mg protein) and acetoacetyl-CoA thiolysis (13.8 mumol/min/mg protein) was 2.4 times higher than that obtained with enzyme A. Similarly, chromatography on phosphocellulose resolved the Ascaris condensing enzyme activity into one minor and two major peaks. All of these components had the same molecular weight and subunit composition, but differed in their specific activities. The two major phosphocellulose peaks cross-reacted immunologically when examined by the Ouchterlony double immunodiffusion technique. In addition, antiserum against the phosphocellulose most active form cross-reacted with forms A and B isolated by chromatography of the enzyme on CM-Sephadex, indicating that all forms were immunochemically related.     

Purification and characterization of a bovine pregnancy-associated glycoprotein

A 67000 Mr bovine pregnancy-associated glycoprotein (bPAG) has been isolated from fetal cotyledons and purified to homogeneity by HPLC. The purification was monitored by a double immunodiffusion test and by RIA in conjunction with an antiserum raised against a crude fraction of placenta-specific antigens. The molecular weight of bPAG was estimated to be 67000 by SDS-PAGE. The isoelectric points (pI) of the four isoforms, determined by high-resolution analytical electrofocusing in polyacrylamide gel, were 4.4, 4.6, 5.2, and 5.4. The carbohydrate content of the bPAG consisted of approximately 10.02 +/- 1.09% neutral sugar and variant amounts of sialic acid (from 0.29 +/- 0.06% in the most basic isoform to 2.1 +/- 0.31% in the most acidic isoform). A specific antiserum was raised against the purified bPAG. A specific RIA showed that the bPAG was antigenically unrelated to BSA, alphafetoprotein (AFP), and human schwangerschafts-spezifischen (pregnancy-specific) beta 1 glycoprotein (SP1). According to some characteristics (e.g. the molecular weight), the purified bPAG may correspond to a form of the pregnancy-specific protein B previously described by Sasser and colleagues (Biol Reprod 1986; 35:936-942).     

Purification and characterization of the phosphate/hydroxyl ion antiport protein from rat liver mitochondria.

The phosphate transport protein was purified from rat liver mitochondria by extraction in an 8% (v/v) Triton X-100 buffer followed by adsorption chromatography on hydroxyapatite and Celite. SDS/polyacrylamide-gel electrophoresis (10%, w/v) demonstrated that the purified polypeptide was apparently homogeneous when stained with Coomassie Blue and had a subunit Mr of 34,000. However, lectin overlay analysis of this gel with 125I-labelled concanavalin A demonstrated the presence of several low- and high-Mr glycoprotein contaminants. To overcome this problem, mitochondria were pre-extracted with a 0.5% (v/v) Triton X-100 buffer as an additional step in the purification of phosphate transport protein. SDS/polyacrylamide gradient gel electrophoresis (14-20%, w/v) of the hydroxyapatite and Celite eluates revealed one major band of Mr 34,000 when stained with Coomassie Blue. The known thiol group sensitivity of the phosphate transporter was employed to characterize the isolated polypeptide further. Labelling studies with N-[2-3H]ethylmaleimide showed that only the 34,000-Mr band was labelled in both the hydroxyapatite and Celite fractions, when purified from rat liver mitochondria. Further confirmation of its identity has been provided with an antiserum directed against the 34,000-Mr protein. Specific partial inhibition of phosphate uptake, as measured by iso-osmotic swelling in the presence of (NH4)2HPO4, was achieved when mitoplasts (mitochondria minus outer membrane) were incubated with this antiserum. Finally, amino acid analysis of the rat liver mitochondrial phosphate/hydroxyl ion antiport protein indicates that it is similar in composition to the equivalent protein isolated from ox heart.     

L-Phenylalanine ammonia-lyase from Phaseolus vulgaris. Characterisation and differential induction of multiple forms from elicitor-treated cell suspension cultures

L-Phenylalanine ammonia-lyase (EC 4.3.1.5) has been purified over 200-fold from cell cultures of bean (phaseolus vulgaris L.) exposed to elicitor heat-released from the cell walls of the phytopathogenic fungus Colletotrichum lindemuthianum. Four forms of the enzyme, with identical Mr but differing apparent pI values of 5.4, 5.2, 5.05 and 4.85, were observed following the final chromatofocussing stage of the purification. A preparation (purified 43-fold by ammonium sulphate precipitation, gel-filtration and ion-exchange chromatography) containing all four forms exhibited apparent negative rate cooperativity with respect to substrates. However, the individual forms displayed normal Michaelis-Menten kinetics, with Km values of 0.077 mM, 0.122 mM, 0.256 mM and 0.302 mM in order of decreasing apparent pI value. A preparation purified 200-fold and containing all four forms was used to immunise rabbits for the production of anti-(phenylalanine ammonia-lyase) serum. The antiserum was characterised by: immunotitration experiments; solid phase enzyme-linked immunosorbent assays; comparison of immunoprecipitates of 35S-labelled phenylalanine ammonia-lyase subunits (synthesized both in vivo and in vitro) on both one-dimensional and two-dimensional polyacrylamide gels after immunoprecipitation with the bean antiserum or antisera raised against pea and parsley phenylalanine ammonia-lyase preparations and immune blotting. SDS/polyacrylamide gels and SDS/polyacrylamide gel electrophoresis followed by immune blotting, indicated that the Mr of newly synthesized (in vivo and in vitro) bean phenylalanine ammonia-lyase subunits is 77000; a 70000-Mr form is readily generated as a partial degradation product during purification. Immunoprecipitates of bean phenylalanine ammonia-lyase synthesized both in vivo and in vitro showed the presence of multiple subunit types of identical Mr but differing in pI. Furthermore, treatment of bean cultures with Colletotrichum elicitor resulted in a 10-fold increase in phenylalanine ammonia-lyase extractable activity within 8 h, and chromatofocussing analysis indicated that this was associated with differential increased appearance of the high-pI, low-Km forms as compared to the two higher Km forms. This differential induction was further confirmed by immune blotting of crude extracts subjected to isoelectric focussing.     

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.     

Characterization of a soluble Mr-30,000 catalytic fragment of the neuronal calmodulin-dependent protein kinase II

Chymotryptic digestion of postsynaptic densities releases a soluble, catalytically active fragment of the alpha (Mr 50,000) subunit of the neuronal cytoskeletal calmodulin-dependent protein kinase II. The purified soluble form of the kinase likewise yields the fragment. Denaturation of the enzyme results in more extensive proteolytic degradation. 125I-Iodopeptide maps of the isolated catalytic portions of both forms of the enzyme are similar and are contained within the map of the isolated alpha subunit. Catalytic fragments of both forms of the enzyme comigrate on two-dimensional SDS-PAGE/isoelectric focusing with pI 6.7-7.2. The fragment phosphorylates microtubule-associated protein (MAP-2) but is not activated by Ca+2/calmodulin nor is it inhibited by trifluoperazine. Km values for MAP-2 and ATP are indistinguishable from those of the holoenzyme, while the Vmax is similar to that of the holoenzyme activated with Ca+2/calmodulin. Overlays of Western blots of fragment with 125I-calmodulin shows a loss of calmodulin binding. Both the number of phosphorylation sites and the ability to autophosphorylate are markedly reduced in the catalytic fragment. Evaluation of the hydrodynamic parameters of the purified fragment yielded Mr value of 25,600 with a frictional ratio (f/f0) of 1.12; the Mr value determined by SDS-PAGE was 30,000. Thus, the catalytic fragment appears to represent an activated form of the kinase with a monomeric, globular structure unlike the native enzyme which exhibits oligomerization and cytoskeletal association. These results are consistent with a tertiary structure for the calmodulin-dependent protein kinase that contains distinct domains responsible for catalytic activity, regulation by calmodulin, cytoskeletal association and the multimeric organization of enzyme subunits.     

Identification and characterization of the ligand binding subunit of a kainic acid receptor using monoclonal antibodies and peptide mapping

Monoclonal antibodies (mAb) and a polyclonal antiserum were produced against a kainic acid receptor (KAR) purified from frog brain. Several of the mAb and the antiserum immunoprecipitated [3H]kainic acid binding activity from solubilized preparations of frog brain and labeled a group of proteins on immunoblots that migrated at Mr = 48,000. These results confirm that the ligand binding subunit of the frog brain KAR is contained in the Mr = 48,000 proteins. Immunoblots from different frog tissues demonstrated that the antibody reactivity was highly concentrated in the frog nervous system with no detectable immunoreactivity observed in non-neuronal tissues. The purified KAR was radioiodinated and subjected to two-dimensional gel electrophoresis and autoradiography. A series of proteins was detected at Mr = 48,000 with isoelectric points from 5.5 to 6.3. The anti-KAR mAb and the antiserum reacted with the same group of proteins from frog whole brain after separation by two-dimensional gel electrophoresis. Peptide maps of the 125I-labeled KAR separated by two-dimensional gel electrophoresis demonstrated that the group of proteins clustered at Mr = 48,000 is homologous. mAb KAR-B1 reacted on immunoblots with a protein in rat brain with a Mr = 99,000. This protein comigrated with an unreduced form of the KAR in frog brain. It was present in rat cerebral cortex, hippocampus, and cerebellum but was not detected in thalamus, globus pallidus, or brain stem, nor was it detected in rat non-neuronal tissues. The presence of the Mr = 99,000 immunoreactive polypeptide in discrete areas of rat brain suggests that this protein may be part of a mammalian KAR or a related receptor.     

Activation of human platelet adenylate cyclase by a bovine sperm component

The latent cysteine proteinase present in ascitic fluid of patients with neoplasia and released from ascites cells in culture has been partially purified and the enzyme after pepsin activation was shown to be immunologically related to the lysosomal proteinase, cathepsin B. The latent form was characterized as a single chain of Mr 40 000 as determined by SDS-polyacrylamide gel electrophoresis under reducing conditions followed by Western blotting and immune staining with an antiserum to human cathepsin B. Using the same techniques the enzyme after pepsin activation gave a single band of Mr 33 000. Analysis by isoelectric focusing showed that the latent enzyme before and after pepsin treatment is composed of several acidic isoenzymes. These findings suggest that this latent proteinase represents a precursor form of cathepsin B which is released extracellularly rather than being processed and directed to the lysosome.     

Immunochemical evidence for a transmembrane orientation of both the (Na+, K+)-ATPase subunits

Antibodies were raised against the large catalytic subunit (apparent Mr 96000) and the glycoprotein (apparent Mr 60000) of the sodium- and potassium-dependent adenosine triphosphatase [(Na+, K+)-ATPase] from Bufo marinus. The specificity of each antiserum was assessed by two-dimensional immunoelectrophoresis using toad kidney microsomes or the purified holoenzyme as a source of antigen and by indirect immunoprecipitation of detergent-solubilized (Na+, K+)-ATPase subunits from radioiodinated or biosynthetically labeled kidney holoenzyme, microsomes, or postnuclear supernatant. The anticatalytic subunit serum reacted exclusively with a 96000-dalton protein. The antiserum to the glycoprotein was rendered specific to this subunit by absorption with purified catalytic subunit. The two antisera were agglutinating and lytic in the presence of complement when toad erythrocytes were used as targets, indicating that antigenic determinants of both subunits were exposed on the cell surface. The specific reactivities with surface-exposed antigenic determinants of both subunits could be absorbed with toad red blood cells. Such absorbed antisera still reacted with detergent-treated or untreated kidney microsomes, revealing the presence of cytoplasmic and/or intramembranous antigenic sites. Our immunochemical data demonstrate that the glycoprotein subunit of (Na+, K+)-ATPase spans the lipid bilayer and confirm the transmembrane orientation of the catalytic subunit postulated from functional studies.     

Isolation, characterization, and amino-terminal amino acid sequence analysis of human neutrophil cathepsin G from normal donors

Human neutrophil cathepsin G from normal donors has been purified 82-fold using an isolation procedure which included sequential sodium chloride extraction, Aprotonin-Sepharose affinity chromatography, CM-cellulose ion-exchange chromatography, and AcA44 gel filtration chromatography. The inclusion of this last purification step was crucial for separating inactive lower molecular weight species from the active forms of neutrophil cathepsin G and resulted in a higher specific activity of the final preparation. SDS polyacrylamide gradient gel electrophoresis of the purified reduced protein demonstrated three discrete polypeptides of Mr 31,000, 30,000, and 29,500. Peptide analysis of tryptic digests indicated that these three polypeptides are structurally related to each other and represent microheterogeneity of the purified protein. The cathepsin G peptide maps were distinctly different from the peptide maps of neutrophil elastase. The apparent isoelectric points of these forms as determined by two-dimensional electrophoresis was approximately 8.0. Utilizing microsequencing techniques, the first 25 residues of normal neutrophil cathepsin G have been determined and shown to be identical (except for residue 11) with the sequence of 21 residues of cathepsin G isolated from leukemic myeloid cells. A high degree of homology was found when the amino-terminal regions of neutrophil cathepsin G, rat mast cell protease II (65%) and two human serine proteinases, factor D (52%) and neutrophil elastase (48%), were compared. A precipitating monospecific antiserum to cathepsin G was produced by repeated immunizations of guinea pigs. This antiserum has been used in immunoblotting experiments to demonstrate that the intracellular form(s) of this enzyme is the same approximate Mr as the purified enzyme, and to develop a solid-phase radioimmunoassay for measuring neutrophil cathepsin G in the range 5-50 ng/ml.     

Biospecific adsorption of hepatic DT-diaphorase on immobilized dicoumarol. II. Purification of mitochondrial and microsomal DT-diaphorase from 3-methylcholanthrene-treated rats

Liver mitochondrial and microsomal DT-diaphorase have been purified from 3-methylcholanthrene-treated rats. A 1150-fold and 3500-fold purification of mitochondrial and microsomal DT-diaphorase, respectively, is achieved after solubilization of the membranes with deoxycholate followed by affinity chromatography on azodicoumarol Sepharose 6B and subsequent gel filtration on Sephadex G-100. From this purification procedure, 65–70% of mitochondrial DT-diaphorase is recovered and the purified enzyme has a specific activity comparable to that of cytosolic DT-diaphorase; i.e., 50.4 kat/kg protein. Microsomal DT-diaphorase is obtained with a yield of 45% and a specific activity of 15.5 kat/kg protein.Purified mitochondrial DT-diaphorase exhibits an absorption spectrum characteristic of a flavoprotein and very similar to that of the cytosolic enzyme. Purification of both mitochondrial and microsomal DT-diaphorase results in fractions enriched in a polypeptide with a molecular weight of 28,000 which comigrates with purified cytosolic DT-diaphorase on SDS-polyacrylamide gel electrophoresis. Employing antiserum raised against cytosolic DT-diaphorase, immunological identity between DT-diaphorase isolated from the three cell fractions is observed with both the Ouchterlony immunodiffusion technique and fused rocket immunoelectrophoresis. The latter method also reveals that DT-diaphorase isolated from mitochondria and microsomes contains several antigenic forms identical to those observed in purified cytosolic DT-diaphorase. Furthermore, this antiserum inhibits DT-diaphorase to about the same extent whether the enzyme is isolated from mitochondria, microsomes, or cytosol. In addition, this antiserum efficiently inhibits membrane-bound microsomal DT-diaphorase.     

Trichinella spiralis: identification and purification of superoxide dismutase

A metalloprotein with superoxide dismutase activity was isolated and purified from muscle-stage Trichinella spiralis. The anti-genicity of the purified enzyme was demonstrated by an immunospecific reaction with T. spiralis antiserum in an enzyme-linked immunosorbent assay. In addition to its presence in somatic extracts of T. spiralis, the enzyme was also excreted into culture fluids in which the muscle-stage larvae had been incubated for periods as short as 3 hr and up to 72 hr. The enzyme was characterized as a copper- and zinc-containing, cyanide-sensitive, superoxide dismutase with a molecular weight of 36,000 (estimated by get filtration), consisting of two subunits of 17,000 Mr (estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis). The isoelectric point was 5.6. Muscle-stage T. spiralis contained one molecular form of the enzyme, whereas adult T. spiralis contained two molecular forms. This enzyme may function as an essential defense mechanism against the highly destructive superoxide radical encountered either intracellularly, as a product of biological oxidation, or externally, as a component of the host's immune system.     

Immunologically reactive multiple species of mitochondrial coupling factor B

Earlier work had indicated that mitochondrial coupling factor B (FB) could be obtained with differing molecular weights, a highly active 13,000 form, a 29,200 form with low activity, and a partially purified 46,000 form with activity higher than the 29,200 form. We have analyzed FB preparations of different purity and after different types of treatment on polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS-PAGE), followed by silver staining or immunostaining either with rabbit anti-FB serum or monoclonal FB antibody. Highly purified preparations which appear as single bands in SDS-PAGE develop additional higher molecular weight bands (silver staining), including a 48,000 and a 68,000 band, after lyophilization or repeated freezing and thawing or if subjected to SDS-PAGE in the absence of thiol compounds. FB prepared without addition of dithiothreitol and glycerol for stabilization also shows high molecular weight forms, although the active fractions are obtained consistently in the final gel filtration step of purification at a position corresponding to Mr = 13,000. When FB preparations are analyzed by immunoblots of SDS-PAGE using a monoclonal antibody to FB, fresh preparations of purified FB show a single band, while multiple bands are seen in samples which have been frozen and thawed repeatedly. Preparations made in the absence of dithiothreitol and glycerol also show cross-reactive forms of high molecular weight. Similar immunoblots using rabbit antiserum with mitochondria, its extracts, and partially purified FB preparations, all show the presence of several higher molecular weight forms. It is concluded that FB is probably a monomer in mitochondria, and it appears to undergo oligomerization after extraction and during purification.     

Cell-cell recognition in yeast. Molecular nature of the sexual agglutinin from Saccharomyces kluyveri 17-cells

A previous study of Saccharomyces kluyveri 17-cell sexual agglutinin (alpha-agglutinin), solubilized by zymolyase (beta-glucanase) digestion of 17-cells and purified by affinity adsorption to immobilized 16-cell agglutinin (alpha-agglutinin), suggested that the major active component was a glycoprotein of 60,000 daltons and that a minor active component of 40,000 daltons was also present, possibly the result of proteolysis (Pierce, M., and Ballou, C. E. (1983) J. Biol. Chem. 258, 3576-3582). We now show that both of these active components are proteolytic fragments of a larger form with a molecular weight of 134,000, and that the latter is produced by proteolysis of a still larger species with a molecular weight of more than 200,000. Washed 17-cell wall fragments were labeled with 125I and digested with purified protease-free beta-1,3-glucanase, and the solubilized alpha-agglutinin was precipitated with antiserum raised against purified agglutinin containing a mixture of the 60,000- and 134,000-dalton forms. Gel electrophoresis in sodium dodecyl sulfate revealed a radioactive material with Mr greater than 200,000 that, on digestion with zymolyase containing an active protease, was converted sequentially to radioactive components with Mr = 134,000, 60,000, and 40,000.     

Immunological Characterization of Secretory Proteins of Chromaffin Granules: Chromogranins A, Chromogranins B, and Enkephalin-Containing Peptides

The soluble proteins of bovine chromaffin granules can be resolved into about 40 proteins by two-dimensional electrophoresis. Use of several antisera enabled us to characterize most of these proteins with the immune replica technique. An antiserum against dopamine beta-hydroxylase reacted with one protein of Mr 75,000. Met-enkephalin antisera labeled eight proteins of Mr 23,000-14,000. A new method was developed to obtain highly purified chromogranin A for immunization. The antiserum reacted with chromogranin A and several smaller proteins of similar pI. This specific antiserum did not react with a second family of hitherto undescribed proteins, which we propose to call chromogranins B. An antiserum against these proteins was raised. It labeled several proteins ranging in Mr from 100,000 to 24,000 and focusing at pH 5.2. Subcellular fractionation established that chromogranins B are specifically localized in chromaffin granules of several species. They are secreted from the adrenal medulla during cholinergic stimulation. We conclude that apart from dopamine beta-hydroxylase chromaffin granules contain three families of immunologically unrelated proteins.     

Cytosolic aspartate aminotransferases from different chicken tissues: purification and characterization of their multiple forms

Cytosolic aspartate aminotransferases from chicken heart, liver, spleen, skeletal muscle and breast muscle differed in number of their molecular forms, detected by polyacrylamide gel electrophoresis and specific staining. The number of molecular forms varied from tissue to tissue but the electrophoretic mobilities of a given form in all tissues were analogous. Within a single tissue most of the enzyme activity was present as the lowest-running band (alpha form) and the rest was distributed in minor bands termed (B,tau, alpha and epsilon forms). We report a method for the purification of cytosolic aspartate aminotransferases from various chicken tissues. The procedure can be carried out in one week and allows the obtention of isolated molecular forms of the enzyme, independently of the tissue under study. Separation of multiple forms was also achieved by chromatofocusing. The isoelectric points determined by this method for a given form in all five tissues were analogous and differed from those of the molecular forms of the enzyme from other origins. An Mr of 100,000 was obtained for all molecular forms of the five chicken tissues studied.     

Purification and characterization of protease inhibitors from urine during pregnancy (author's transl)

Two forms of urinary trypsin inhibitor, A and B, were purified from the pooled urine from pregnant women using non-denaturing methods. The inhibitor B arose from the inhibitor A and was not present in native urine. Electrophoresis on polyacrylamide gel in the presence of sodium dodecyl sulfate indicated a new heterogeneity of the inhibitor B with molecular weights of 33 000 and 24 000; the molecular weight obtained for the inhibitor A was 50 000. Inhibitors A and B were acidic proteins with an isoelectric pH of about 2.6 for A and about 4.2 for B. Inhibitor A and inter-alpha-trypsin inhibitor formed a precipitate with an antiserum to purified inhibitor B. But neither inhibitor A nor inhibitor B formed a precipitate with anti whole human serum or anti-inter-alpha-trypsin inhibitor antiserum. Measurements of specific activity of inhibitor A were consistent with two active sites in the molecule.     

T-URF 13 Protein from Mitochondria of Texas Male-Sterile Maize (Zea mays L.) : Its Purification and Submitochondrial Localization, and Immunogold Labeling in Anther Tapetum during Microsporogenesis

The protein T-URF13 (URF13) is specific to mitochondria of maize (Zea mays L.) with Texas (T) male-sterile cytoplasm and has been implicated in causing male sterility and susceptibility to T-cytoplasm-specific fungal diseases. T-URF13 was purified from isolated mitochondria from maize (line B73) with T cytoplasm by gel filtration and a quasi two-dimensional polyacrylamide gel electrophoresis system. Antibodies to the purified and denatured protein were produced in rabbits. Anti-T-URF13 antiserum was used to show that T-URF13 is in the inner membrane of mitochondria and behaves as an integral membrane protein when mitochondria are fractionated with sodium carbonate or Triton X-114. The antiserum and protein A tagged with 20-nanometer-gold particles were used to localize T-URF13 in T mitochondria by electron microscopy of sections of isolated mitochondria from etiolated shoots and sections of roots and of tapetal cells at pre-and post-degeneration stages of microsporogenesis. The microscopic study confirms that T-URF13 is specifically localized in the mitochondrial membranes of all of the T mitochondria tested, notably those in the tapetum from the meiocyte stage to the late-microspore stage. No change in the amount of labeled T-URF13 protein in the mitochondria of aging tapetal cells was detected.     

Cytochrome b from Escherichia coli nitrate reductase. Its properties and association with the enzyme complex

Membrane-bound nitrate reductase purified from Escherichia coli was resolved into two separate forms. The majority of the enzyme complex had a subunit composition of 2A:2B:4C, exhibited cytochrome b spectra, and was found to be stable after purification. A second form of nitrate reductase activity was a modified complex with a subunit composition of 2A:2B and lacked cytochrome. The subunit B from this complex was altered in its mobility on sodium dodecyl sulfate-polyacrylamide gels. The cytochrome-containing enzyme had 28 +/- 2 atoms of iron and 1.35 atoms of molybdenum whereas iron and molybdenum in cytochromeless enzyme were 24 +/- 2 atoms and 1.18 atoms/molecule, respectively. Besides cytochrome-containing nitrate reductase, two other cytochrome b-containing fractions were also resolved. These were cytochrome b associated with formate dehydrogenase and a novel cytochrome b with reduced absorption maxima at 430, 529.5, and 560 nm. Nitrate reductase cytochrome b (subunit C) was isolated from subunits A and B as a partially denatured form and its renaturation was accomplished by dialyzing against hemin. The renatured cytochrome yielded absorption spectra similar to the holoenzyme. The pure cytochrome aggregated upon heating, even in the presence of sodium dodecyl sulfate. It had a high isoelectric point (pH greater than 9.5) and had 45% hydrophobic amino acids.