Purification and Characterization of a Ca2+-Dependent Protein Kinase from the Halotolerant Green Alga Dunaliella tertiolecta

A Ca²⁺-dependent protein kinase (CDPK) that has been partiallypurified and characterized previously [Yuasa and Muto (1992)Arch. Biochem. Biophys. 296: 175] was further purified to about20,000-fold from the soluble fraction of Dunaliella tertiolecta.The enzyme preparation contained 60- and 52-kDa polypeptidesboth of which phosphorylated casein as a substrate. Both polypeptidesshowed a Ca²⁺-dependent increase in mobility during SDS-PAGEand ⁴⁵Ca²⁺-binding activity after SDS-PAGE and electroblottingonto a nitrocellulose membrane, suggesting that both the 60-and 52-kDa CDPKs directly bind Ca²⁺. The protein kinase inhibitors,K-252a and staurosporine, inhibited the CDPK competitively withrespect to ATP. An antibody raised against the 60-kDa CDPK crossreactedwith both the 60- and 52-kDa polypeptides. Both molecular specieswere autophosphorylated in the presence of Ca²⁺, and a highlyphosphorylated 80-kDa band appeared in addition to these phosphorylatedbands at 60 and 52 kDa in SDS-PAGE. However, the specific activityof CDPK was not changed by prior autophosphorylation when theautophosphorylated enzyme was assayed as a mixture of thesephosphorylated molecular species. Only the 60-kDa polypeptidewas immunodetected in subcellular fractions of Dunaliella cells.The 52-kDa polypeptide increased during storage of the enzyme.These results suggest that the 52-kDa polypeptide is a proteolyticartifact produced during purification. Immunoreactive bandsof 60-kDa were detected in extracts of several green algae butnot in extracts of higher plants or a brown alga. ¹This research was partly supported by Grants-in-Aid from theMinistry of Education, Science and Culture, Japan (No. 06454013and 06304023) and Research Fellowship of the Japan Society forthe Promotion of Science for Young Sciencists. ²Research Fellow (PD) of the Japan Society for the Promotionof Science.     

Extensin Secreted into the Culture Medium of Tobacco Cells II. Extensin Subfamilies of Similar Composition

Combining acetic acid extraction and high-performance gel chromatographyin guanidine HCl, extensin secreted into the medium by tobacco(Nicotiana tabacum L. var Xanthi) culture cells was separatedinto three component molecules, namely a major 74-kDa, and twominor 45-and 28-kDa components, in addition to larger oligomers.The sizes of these native extensin molecules were first reasonablyassessed using this gel-chromatography system. After deglycosylationwith hydrogen fluoride, the separation was improved and theestimated molecular sizes were reduced to 52 kDa, 34 kDa and18 kDa, respectively. The amino acid compositions of these componentswere similar, and N-terminal sequences of the 52- and 34-kDacomponents coincided. The relative abundance of the componentswas as follows: oligomers, 46%; 52-kDa, 44%; 34-kDa, 7.7%; 18-kDa,2.2%; respectively, on a protein basis (w/w). Fluorography ofthe acid extract of microsomes from cells labelled with ¹⁴C-prolinerevealed only one precursor band of 110-kDa or 42-kDa underthe glycosylating or non-glycosylating conditions, respectively.The smaller components in the medium may be derived, by proteolyticcleavage, from the major extensin molecule after secretion. (Received October 15, 1990; Accepted May 15, 1991)     

Purification of Xyloglucan Hydrolase/Endotransferase from Cell Walls of Azuki Bean Epicotyls

An enzyme involved in the breakdown of xyloglucans was purifiedfrom an extract of cell walls of azuki bean epicotyls obtainedwith 1 M NaCl and purified by column chromatography on severaldifferent resins. The purified enzyme gave a single band ofa protein with a molecular mass of about 32 kDa after SDS-PAGE.The enzyme hydrolyzed the xyloglucans of high molecular massfrom azuki cell walls to yield fragments of about 50 kDa withoutproduction of any oligo- or monosaccharides. Moreover, the enzymehad hardly any effect on xyloglucans of less than 60 kDa. Theenzyme also hydrolyzed xyloglucans from tamarind, but it didnot react with cellulose derivatives. In the presence of pyridylamino-labeledxyloglucan oligosac-charides as acceptor substrates, the enzymecatalyzed the transfer of 50-kDa products to the oligosaccharides.The K_m value of the enzyme for xyloglucans of 540 kDa was similarin the presence and in the absence of xyloglucan oligosaccharidesas acceptors: 1.0 mg ml^–1. These results suggest thatthe enzyme was an endotransferase but had unusual acceptor specificity,preferring smaller acceptors such as water. (Received September 9, 1996; Accepted March 16, 1997)     

Heat Shock Induced Change in Protein Ubiquitination in Chlamydomonas

Ubiquitin was purified from pea (Pisum sativum L.) and its antibodywas produced. Western blot analysis showed that the antibodycross-reacted with ubiquitins from a green alga Chlamydomonasreinhardtii, a brown alga Laminaria angustata and a red algaPorphyridium cruentum but not with ubiquitin from a blue-greenalga Synechococcus sp. In Chlamydomonas, the antibody also reactedwith some ubiquitinated proteins including 28- and 31-kDa polypeptides.The isoelectric points of Chlamydomonas ubiquitin and the 28-and 31-kDa ubiquitinated proteins were 8.0, 8.9 and 10.3, respectively.The ubiquitinated proteins, including the 28- and 31-kDa polypeptideswere detected after in vitro ATP-dependent ubiquitination ofChlamydomonas cell extract with ^l25I-labeled bovine ubiquitin.Heat treatment of Chlamydomonas cells (>40°C) causeddrastic increase of ubiquitinated proteins with high mol wt(>60kDa), and coordinated redistribution or decrease of otherubiquitinated proteins and free ubiquitin. Quantitative analysisrevealed that the 28- and 31-kDa ubiquitinated proteins showeddifferent responses against heat stress, i.e. the former beingmore sensitive than the latter. (Received July 10, 1988; Accepted October 4, 1988)     

Isolation of the D1 Protein and a 28-kDa Fragment of the D2 Protein from Spinach Photosystem II Membranes

The 32-kDa D1 protein, which contained no lysine in spinachchloroplasts, as deduced from its DNA code, was isolated byhigh-performance gel permeation chromatography in the presenceof 0.1% SDS and 4 M urea. Three proteins of the photosystemII reaction center complex have a molecular mass of 30–35kDa, and two, the D2 protein and the peripheral 33-kDa protein,were severed into peptide fragments by Achromobacter lysyl endopeptidase(EC 3.4.14.50 [EC] ) before the chromatography. The isolated D1 proteindid not contain chlorophylls and pheophytins but had an absorptionmaximum at 265 nm probably due to bound plastoquinone. A peptidefragment of 28 kDa from the D2 protein was also isolated fromspinach photosystem II membranes and the wheat photosystem IIreaction center. Antibodies raised against the 28-kDa peptidefrom wheat bound to the 34-kDa D2 protein, which suggested thatthis peptide was the largest sequence of Aspl4-Lys265. The fragmentof wheat D2 protein showed absorption maxima at 413 and 682nm attributable to bound pheophytin that probably had been convertedfrom chlorophyll a during the isolation process. (Received June 29, 1987; Accepted October 21, 1987)     

Distribution of Vacuolar H+-Pyrophosphatase and a Membrane Integral Protein in a Variety of Green Plants

Vacuolar membranes isolated from several species including fernand moss exhibited pyro-phosphate-dependent H⁺ transport activity.On immunoblot analysis, H⁺ -pyrophosphatase was detected inthe vacuolar membranes. A membrane integral protein of 23,000daltons was not found in the membranes of Chara, Conocephalum,or Kalanchoë. Thus, H⁺-pyrophosphatase may be a universalenzyme among green plants, but the 23-kDa protein is not a commonprotein of central vacuoles. (Received September 10, 1993; Accepted November 29, 1993)     

Enzymatic Conversion of Pheophorbide a to the Precursor of Pyropheophorbide a in Leaves of Chenopodium album

Soluble proteins extracted from leaves of Chenopodium albumcatalyzed the conversion of pheophorbide a to a precursor ofpyropheophorbide a, putatively identified as C-13²-carboxyl-pyropheophorbidea. The precursor was then decarboxylated non-enzymatically toyield pyropheophorbide a. Soluble proteins and pheophorbidea, as the substrate, were required for the formation of theprecursor, and boiled proteins were enzymatically inactive.The maximum rate of conversion of pheophorbide a to the precursoroccurred at pH 7.5. The K_m for pheophorbide a was 12.5 µMat pH 7.0. Both pheophorbide b and bacteriopheophorbide a couldserve as substrates, but protopheophorbide a could not. Formationof methanol was detected during the enzymatic reaction, an indicationthat the enzyme is an esterase. Among seven alcohol analogstested, only methanol inhibited the enzymatic activity uncompetitively,with a K₁ of 71.6 mM. Mass-spectrometric (MS) analysis of theprecursor yield a peak at m/z 579 that indicated the releaseof a methyl group from pheophorbide a. It appears thereforethat the enzyme catalyzes the demethylation of the carbomethoxygroup at C-13² of pheophorbide a by hydrolysis to yield methanoland the precursor, C-13²-carboxyl-pyropheophorbide a, whichis converted to pyropheophorbide a by spontaneous decarboxylation.We have tentatively designated the enzyme "pheophorbidase".The presence of the enzyme was dependent on plant species andit was expressed constitutively. ¹Present address: Faculty of Science, Shizuoka University, Ohya,Shizuoka, 422 Japan     

Reconstitution of Tonoplast H+-ATPase from Mung Bean (Vigna radiata L.) Hypocotyls in Liposomes

Reconstituted proteoliposomes of tonoplast ATPase are formedon solubilization of tonoplast membranes from mung bean (Vignaradiata L.) with deoxycholate (DOC) in the presence of a mixtureof soybean phospholipids (asolectin), after removal of DOC bypassage through a PD-10 column (Pharmacia). This method is idealbecause of its simplicity and rapidity. Selective insertionof sets of tonoplast H⁺-ATPase polypeptides (68 kDa, 60 kDa,16 kDa and several minor polypeptides) into liposomes usingthis method was confirmed by SDS-PAGE and immuno-blotting withantibodies raised against 68-kDa and 60-kDa polypeptides. Pumping of protons across the membranes of the proteoliposomeswas demonstrated by quinacrine-fluorescence quenching in thepresence of ATP-Mg²⁺. ATP-Mg²⁺ was shown to be the preferredsubstrate in both reconstituted and native tonoplast vesicles,and its optimum concentration was 0.75 to 3.0 mM. Quenchingwas completely abolished by a channel-forming ionophore, gramicidinD, and an inhibitor of tonoplast H⁺-ATPase, KNO₃. Antibodiesto 68-kDa and 60-kDa peptides partially inhibited the pumpingof protons. The rate of pumping of protons increased with thenumber of proteoliposomes, the maximal concentration of whichwas equivalent to 250 µg of protein per reaction mixture.The optimum pH for pumping was 6.5 when inside of proteoliposomeswere loaded pH at 7.2. The rate of pumping of protons was reducedwhen proteoliposomes were made using asolectin and cholesterolat 3 : 1 (w/w), as compared with those made with asolectin alone. The ATPase activity in reconstituted proteoliposomes was inhibitedby KNO₃, with half-maximal inhibition at approximately 7 mM.The enzyme actively hydrolyzed ATP in preference to GTP, CTP,UTP, and ADP, but it did not hydrolyze pNPP or AMP. Antibodiesagainst the 60-kDa polypeptide strongly inhibited ATPase activityas compared to antibodies against the 68-kDa polypeptide. Theresults obtained in this study demonstrate directly that functionaltonoplast H⁺-ATPase can be inserted selectively into liposomes. (Received August 31, 1990; Accepted April 18, 1991)     

Purification and Properties of Cytokinin-Binding Proteins from Tobacco Leaves

A cytokinin-binding protein complex was purified 700-fold fromleaves of tobacco (Nicotiana sylvestris). The purification procedureconsisted of four chromatographic steps on columns of DEAE-cellulose,Mono Q, Phenyl Superose and Superose 12, respectively. The purifiedcytokinin-binding protein complex behaved as a 130-kDa globularprotein on gel filtration. This complex contains two proteinspecies whose molecular masses are estimated to be 57 kDa and36 kDa. Binding to benzyl[8-¹⁴C]adenine was inhibited by adenine,ATP, zeatin and cAMP but not by indoleacetic acid. Scatchardanalysis indicated the existence of at least two cytokinin-bindingsites in the purified complex. The dissociation constant forthe high-affinity site was 2.1 10^-5 M. (Received October 19, 1992; Accepted February 27, 1993)     

Purification and Characterization of Three Distinct Protein Kinases from Marchantia polymorpha

Three protein kinases (HK-I, HK-II and HK-III) have been partiallypurified from the 1.0 M KC1 extract of Marchantia polymorphaand biochemically characterized. It was found that (i) the molecularweights of HK-I, HK-II and HK-III were approximately 23 kDa,47 kDa and 28 kDa, respectively; (ii) these three kinases requireddivalent cations, such as Mn²⁺ and Mg²⁺, but not Ca²⁺, for activity;and (iii) histone H1 was an effective phosphate acceptor forboth HK-I and HK-II, whereas the other kinase (HK-III) effectivelyphosphorylated whole histone (Type II-A from calf thymus) ratherthan histone H1. Heparin (20µg/ml), an inhibitor of caseinkinase II, significantly stimulated the phosphorylation of cellularpolypeptides by HK-II, which was thermo sensitive even at 30?C,rather than that by the other kinases (HK-I and HK-III). Moreover,experiments in vitro and in vivo to determine the native phosphateacceptors for HK-II indicated that a 60-kDa cellular polypeptidemay be one of the native phosphate acceptors for the proteinkinase. In addition, the similarity in properties of cdc2-kinase,which plays an important role in the cell cycle (in the transitionfrom the G₂ phase to mitosis) of yeast and many eukaryotic cells,to HK-II is discussed. (Received May 2, 1990; Accepted December 6, 1990)     

Structural and Kinetic Properties of NADP-Malic Enzyme from the Inducible Crassulacean Acid Metabolism Plant Mesembryanthemum crystallinum L.

NADP-malic enzyme (EC 1.1.1.40 [EC] ), which is involved in Crassulaceanacid metabolism (CAM), was purified to electrophoretic homogeneityfrom the leaves of the inducible CAM plant Mesembryanthemumcrystallinum. The NADP-malic enzyme, which was purified 1,146-fold,has a specific activity of 68.8 µmol (mg protein)^–1min^–1. The molecular weight of the subunits of the enzymewas 64 kDa. The native molecular weight of the enzyme was determinedby gel-filtration to be 390 kDa, indicating that the purifiedNADP-malic enzyme is a hexamer of identical subunits. The optimalpH for activity of the enzyme was around 7.2. Double-reciprocalplots of the enzymatic activity as a function of the concentrationof L-malate yielded straight lines both at pH 7.2 and at pH7.8 and did not reveal any evidence for cooperativity of bindingof L-malate. The K_m value for L-malate was 0.35 mM. Hill plotsof the activity as a function of the concentration of NADP⁺indicated positive cooperativity in the binding of NADP⁺ tothe enzyme with a Hill coefficient (nH) of 2.0. An S_0.5 value(the concentration giving half-maximal activity) of 9.9 µMfor NADP⁺ was obtained. Oxaloacetate inhibited the activityof the NADP-malic enzyme. Effects of succinate and NaHCO₃ onthe activity of NADP-malic enzyme were small. (Received October 30, 1991; Accepted May 1, 1992)     

Synthesis of an Atrazine-Binding Protein of the PSII Reaction Center in Isolated Wheat Etiochloroplasts

Isolated wheat (Triticum aestivum L. cv Norin 61) etiochloroplastssynthesized membrane polypeptides of 34, 33 and 30 kDa whichwere resolved by lithium dodecyl sulfate polyacrylamide gelelectrophoresis at 4?C. One-dimensional peptide-mapping analysis,as well as differential labelling with (³H)-lysine or (³⁵S)-methionine,showed that the 34- and 30-kDa polypeptides are atrazine-bindingproteins of the PSII reaction center. ¹Present address: Research Center for Molecular Genetics, HokkaidoUniversity, Sapporo 060, Japan. (Received March 9, 1987; Accepted June 29, 1987)     

Purification and properties of DNA topoisomerase II from Daucus carota cells

Topoisomerase II was partially purified from Daucus carota cellsby a procedure including ammonium sulphate fractionation, ion-exchange,and affinity chromatography steps. The type II enzyme, identifiedfor its ability to unknot knotted P4 DNA and decatenate Trypanosomacruzi kDNA, requires ATP and Mg²⁺ for activity. The unknottingactivity was sensitive to an inhibitor of the mammalian typeII enzyme, the drug VP16 (IC₅₀ 32 mmol m^–3), whereas inhibitorsof DNA gyrase showed a limited effect on activity. The SDS-PAGEanalysis of the dsDNA cellulose fraction revealed the presenceof four polypeptides of apparent molecular masses of 72, 71,34, and 33 kDa among which only a polypeptide of about 70 kDacrossreacted with antibodies against yeast topoisomerase II.Immunoprecipitation experiments with monoclonal antibodies tothe and ß isoforms of the human enzyme confirmedthe recognition of a polypeptide of 70 kDa. The sedimentationcoefficient (S) of the topoisomerase II in the phosphocellulosefraction, calculated by analytical glycerol gradient, was 6.1corresponding to a molecular mass of about 123 kDa. Resultssuggest the presence in carrot of a protein of molecular massof 70 kDa having the typical properties of an eukaryotic topoisomeraseII and carrying epitopes recognized by MoAbs to both human and ß enzymes. The 70 kDa polypeptide might then representthe monomer of a homodimer enzyme of 123 kDa. Key words: Daucus carota, topoisomerase II, immunoprecipitation     

Sequencing and Expression of the Gene that Encodes a 20-kDa Polypeptide of the PSI Complex from Cucumber Cotyledon

A cDNA clone encoding the polypeptide from cucumber PS I thatmigrates with an apparent molecular weight of 20 kDa on SDS-polyacrylamidegels has been isolated. The 907-bp sequence of this clone hasbeen determined and contains one large open reading frame thatencodes a 22,720-Da precursor polypeptide (207 amino acid residues).The molecular weight of the mature polypeptide was predictedto be 17,037-Da (153 amino acid residues). The deduced aminoacid sequence of this protein indicates that it is routed towardsthe stromal side of the thylakoid membrane and has no membrane-spanningregions. The sequence also confirmed the identity of the proteinas the product of the psa D gene. Chemical cross-linking offerredoxin to the PS I complex identified the 20-kDa subunitas the ferredoxin-binding protein. Northern hybridization experimentsrevealed that the mRNA of approximately 1,100 nucleotides forthe 20-kDa polypeptide was present in etiolated cucumber cotyledons,and its level increased about 5-fold during greening. The 20-kDapolypeptide was not detected by immunoblotting in etiolatedcotyledons, and it accumulated only after illumination. Labelingexperiments in vivo showed the absence of incorporation of [³⁵S]Metinto the polypeptide in etiolated cotyledons. These resultssuggest that the expression of the psa D gene is controlledat the translational level. (Received April 5, 1990; Accepted June 28, 1990)     

Biochemical, Immunochemical and Immunohistochemical Identification of Myosin Heavy Chains in Cultured Cells of Catharanthus roseus

In the pollen tubes of the lily Lilium longiflorum, myosin,composed of 170-kDa heavy chains is responsible for the intracellulartransport of organelles [Yokota and Shimmen (1994) Protoplasma177: 153]. Polypeptides of 170 kDa with similar antigenicityto this pollen-tube myosin have also been found in other angiospermcells [Yokota et al. (1995) Protoplasma 185: 178]. To clarifythe role of this type of myosin in cytoplasmic streaming, weprepared partially purified myosin fraction from cultured cellsof Catharanthus roseus by co-precipitation with F-actin. Ina motility assay in vitro with this fraction, rhodamine-phalloidin-labeledF-actin moved with an average velocity of 10.7 µm s^-1.This sliding velocity was similar to that of the cytoplasmicstreaming observed in intact cultured cells. Antibodies raisedagainst the 170-kDa heavy chain of pollen-tube myosin recognizedonly a single polypeptide of 170 kDa in this partially purifiedfraction. The same polypeptide was also identified by theseantibodies in a crude extract of proteins from cultured cells.The myosin-specific fluorescence was concentrated around thenuclei and was associated with particles of various sizes. Duallocalization using antibodies against myosin and against actinrevealed that these particles were preferentially co-localizedwith actin filaments. On the other hand, no component of thecrude extract or of the partially purified myosin fraction cross-reactedwith antibodies against heavy chains of myosin II from animalcells. These results suggest that the 170-kDa polypeptide is the myosinheavy chain and that this myosin generates the motive forcefor cytoplasmic streaming in cultured cells of Catharanthusroseus. (Received March 28, 1995; Accepted September 14, 1995)     

Identification of the Carboxyl-Terminal Processing Protease for the D1 Precursor Protein of the Photosystem II Reaction Center of Spinach

The enzyme involved in the carboxyl-terminal processing of theD1 precursor protein (pD1) of the photosystem II reaction centerwas purified from extracts of sonicated spinach thylakoids bya method that included chromatography on quaternary aminoethylanion-exchange, hydroxylapatite, copper-chelating affinity andgel-filtration columns. The enzyme was identified, from itschromatographic behavior, to be a monomeric protein of about45 kDa. The sequence of the amino-terminal 27 amino acids ofthis protein was determined directly, which exhibited low butappreciable (37%) homology to that deduced from a gene (ctpA)in Synechocystis sp. PCC 6803 that was proposed recently toencode the processing protease from results of genetic complementationanalysis. ³Present address: Asahi Kasei Chem. Co.     

Purification of Ribulose 5-phosphate Kinase and Minor Polypeptides of Pyrenoid from the Green Alga Bryopsis maxima

Ribulose 5-phosphate (Ru5P) kinase (ATP:D-ribulose 5-phosphate1-phosphotrans- ferase; EC 2.7.1.19 [EC] ), an enzyme in the reductivepentose phosphate cycle, was purified from the green alga Bryopsismaxima and its activity and peptide composition were studied.The specific activity of purified Ru5P kinase was 20 µmoleRuBP formed (mg protein)^–1 min^–1 corresponding toa 490-fold purification from the supernatant of chloroplasts.The K_m values of Ru5P kinase for ATP and Ru5P were 69 µMand 330 µM, respectively. The molecular size of Ru5P kinase was estimated as 90 kDa bygel filtration and that of its polypeptide as 41 kDa by SDS-polyacrylamidegel electrophoresis. A small portion of the Ru5P kinase wasfound in a large molecular state (500 kDa) which was consideredto be an inactive form of the enzyme. Ru5P kinase activity has been reported in the pyrenoid of Eremosphaeraviridis as well as ribulose 1,5-bisphosphate carboxylase-oxygenase(RuBisCO) and ribose 5-phosphate isomerase activity (Holdsworth1971). In Bryopsis maxima, among the pyrenoid polypeptides otherthan that of RuBisCO, we found a polypeptide of 42 kDa, similarto that of Ru5P kinase in molecular size and ratio to RuBisCO.A peptide map of the 42 kDa pyrenoid polypeptide, however, showedthat it differed from that of Ru5P kinase. In conclusion, Ru5Pkinase may be not involved in the pyrenoid of this alga. (Received January 19, 1985; Accepted May 15, 1985)     

Pyruvic Oxime Dioxygenase from the Heterotrophic Nitrifier Alcaligenes faecalis: Purification, and Molecular and Enzymatic Properties

From the heterotrophic nitrifier Alcaligenes faecalis IFO 13111,an enzyme was purified which oxidized pyruvic oxime to nitrite.The molecular mass of the enzyme was 115 kDa and its moleculewas composed of three molecules of subunits with the same molecularmass of 40 kDa. The enzyme contained 3 atoms of nonheme ironin the molecule and was active when the iron atoms were in aferrous state. The enzyme consumed one mol of O₂ to form onemol each of nitrite and pyruvate from one mol of pyruvic oxime.Therefore, the enzyme was thought to be a pyruvic oxime dioxygenase. (Received June 29, 1998; Accepted October 26, 1998)     

Partial Purification and Characterization of An ATPase in Mung Bean Hypocotyl Plasma Membrane: Suggestion for A New Type of Higher Plant Plasma Membrane ATPase

A vanadate-sensitive and nitrate-resistant ATPase was solubilizedwith Zwittergent 3–14 from a highly purified plasma membranefraction of mung bean hypocotyls and partially purified by glyceroldensity gradient centrifugation and phenyl-Sepharose columnchromatography. Either phosphatidylcholine or phosphatidylserinein addition to Mg^{2 +} was required for the enzyme activity, whereasK⁺, phosphatidylethanolamine and lysophosphatidylcholine hadno effect on the activity. The purified enzyme preparation containedtwo major polypeptides with molecular masses of 67 and 55 kDaas analyzed by SDS-polyacrylamide gel electrophoresis. Whenthe plasma membrane fraction was incubated with [-³²P]ATP, a45-70-kDa polypeptide(s) was labeled, and the label could berapidly chased with cold ATP. When the fraction was incubatedwith [¹⁴C]N,N'-dicyclohexylcarbodiimide, an inhibitor for theATPase, a 15-20-kDa polypeptide was labeled. We propose thatthe enzyme is a new type of higher plant plasma membrane ATP-aseand is composed of 67- and 55-kDa subunits and probably alsoa 15-20-kDa subunit. ¹Present address: Takarazuka Institute, Sumitomo Chemical IndustriesLtd., Takatsukasa, Takarazuka, Hyogo 665, Japan (Received September 2, 1987; Accepted May 20, 1988)     

Phosphoproteins and Protein Kinase Activities Intrinsic to Inner Membranes of Potato Tuber Mitochondria

Inside-out submitochondrial particles (IO-SMP) were isolatedand purified from potato (Solanum tuberosum L. cv.) tubers.When these IO-SMP were incubated with [ ³²P]ATP more then 20proteins became labelled as a result of phosphorylation. The³²P incorporation was stimulated by the oxidising reagent ferricyanide.Except for a 17 kDa protein which was phosphorylated only inthe absence of divalent cations, the protein phosphorylationrequired Mg²⁺. The time for half-maximum ³²P incorporation was4 mm for the 22 kDa phospho-F₁ -subunit and 2 min for the 28kDa phospho-F₀ b-subunit of the proton-ATPase. The K_m for ATPfor the detected phosphoproteins was between 65 µM and110 µM. The pH optimum for protein phosphorylation ininner membranes was between pH 6 and 8, and for the F₁ -subunitand the F₀ b-subunit the pH optima were 6.5–8 and pH 8,respectively. A 37 kDa phosphoprotein was phosphorylated ona histidine residue while the remainder of the inner membraneproteins were phosphorylated on serine or threonine residues.Two autophosphorylated putative kinases were identified: oneat 16.5 kDa required divalent cations for autophosphorylation,while another at 30 kDa did not. A 110 kDa protein was labelledonly with [-³²P] suggesting adenylylation. ³ Present address; Novartis Seeds AB, Box 302, S-261 23 Landskrona,Sweden.