Detection of Sendai virus fusion with human erythrocytes by fluorescence photobleaching recovery

The subunit stoichiometry of the ATP synthetase (CF₁-CF₀) immunoprecipitated from Triton X-100 extracts of chloroplast thylakoid membranes was determined to be α₃, β₃, γ, δ, ? (CF₁) and I_0.3, II_0.6–0.9, III₄₍₆₎ (CF₀). Antibodies against the polypeptides α, β, γ, δ, I, II and ? combined specifically with the isolated subunits as analysed by the protein blotting method. Applying this technique, antibodies against the CF₁ subunits were found to form complexes with the corresponding polypeptides of thylakoids, whereas those against I (M_r 20 000) and II (M_r 17 000) combined with M_r 26 000 and M_r 24 500 membrane polypeptides, respectively. The M_r 26 000 polypeptide was identified as the major subunits of the light-harvesting chlorophyll a/b-protein (LHCP) complex and the M_r 24 500 component seems to be functionally connected with this complex. From the results it is concluded that the chloroplast ATP synthetase consists of the subunit of the α, β, γ, δ, ? and III (proteolipid only and that proteolytically altered LHCP polypeptides bind artifically to the protein complex during isolation.     

Selective inhibition of the spinach thylakoid LHC II protein kinase

Treatment of spinach thylakoids with the adenosine affinity inhibitor 5′-p-fluorosulfonylbenzoyl adenosine (FSBA) resulted in at least 95% inhibition of phosphorylation of the light-harvesting protein complex of Photosystem II (LHC II), while the M_r 10 000 polypeptide showed a 35% decrease in phosphorylation. This residual kinase activity after FSBA treatment appears to have the same properties as the control, since phosphorylation of the M_r 10 000 polypeptide subsequent to FSBA treatment could be achieved with either light or reducing conditions in the dark. [¹⁴C]FSBA labelled several polypeptides, but only the M_r 50 000 band was protected against the label by prior addition of ADP or adenosine, making it a possible candidate for the LHC II kinase. FSBA had no effect on electron transport, and [¹⁴C]FSBA did not label LHC II or the M_r 10 000 polypeptide, indicating that the FSBA was not interfering with activation of the kinase or modifying the substrates, but rather acting at the level of the LHC II protein kinase. Inhibition of LHC II phosphorylation by FSBA resulted in the elimination of the slow ATP-induced decrease in variable fluorescence, a parameter believed to be associated with phosphorylation of the LHC II. The half-times and time-course for inhibition of LHC II phosphorylation and inhibition of the ATP-induced decrease of fluorescence yield were identical, consistent with the concept that LHC II phosphorylation plays a major role in this fluorescence change.     

Thylakoid protein kinase activity and associated control of excitation energy distribution during chloroplast biogenesis in wheat

The activity of thylakoid protein kinase and the regulation of excitation energy distribution between photosystems I and II was examined during chloroplast biogenesis in light-grown Triticum aestivum (wheat) leaves. The specific activity of the thylakoid protein kinase decreased some six-fold during development from the young plastids at the base of the 7-d-old leaf to the mature chloroplasts at the leaf tip. Appreciable activity was also detected in plastids isolated from etiolated leaves. In mature chloroplasts the majority of phosphate was incorporated into the M_r=26,000 apo-proteins of the light-harvesting chlorophyll a/b-protein complex (LHCP). However, at early stages of chloroplast development and in the etioplast, the phosphate was predominantly incorporated into a polypeptide of M_r=9,000 dalton. Immature thylakoids, isolated from the base of the leaf, had relatively low concentrations of LHCP and could perform a State 1-State 2 transition, as demonstrated by ATP-induced quenching of photosystem II fluorescence. Analyses of photosystem I and photosystem II fluorescence-induction curves from intact leaf tissue demonstrated that this transition occurs in vivo at early stages of leaf development and, therefore, may play an important role in regulating energy transduction during chloroplast biogenesis.     

Stromal low temperature compartment derived from the inner membrane of the chloroplast envelope

Leaf discs of four dicotyledonous species, when incubated at temperatures of 4 to 18°C (optimum at 12°C) for 30 or 60 minutes, responded by accumulations of membranes in the chloroplast stroma in the space between the inner membrane of the envelope and the thylakoids. The accumulated membranes, here referred to as the low temperature compartment, were frequently continuous with the envelope membrane and exhibited kinetics of formation consistent with a derivation from the envelope. Results were similar for expanding leaves of garden pea (Pisum sativum), soybean (Glycine max), spinach (Spinacia oleracea), and tobacco (Nicotiana tabacum). We suggest that the stromal low temperature compartment may be analogous to the compartment induced to form between the transitional endoplasmic reticulum and the Golgi apparatus at low temperatures. The findings provide evidence for the possibility of a vesicular transfer of membrane constituents between the inner membrane of the chloroplast envelope and the thylakoids of mature chloroplasts in expanding leaves.     

Proteins and polypeptides of envelope membranes from spinach chloroplasts. I. Isoelectric focusing and sodium dodecyl sulfate polyacrylamide gel electrophoresis separations

Polypeptides of spinach chloroplast envelopes were separated by electrophoresis in an SDS-polyacrylamide gradient gel. At least 37 polypeptides were resolved; nine were prominent. Two (M_r 54 000 and 16 000) were also found in the stroma fraction and identified by peptide mapping and isoelectric focusing in the second dimension as the large and small subunits of ribulose-1,5-bisphosphate carboxylase. Proteins of the chloroplast envelope were also separated by isoelectric focusing. An adaptation of a previous method (Ames, G.F.L. and Nikaido, K. (1976) Biochemistry 15, 616ndash;623), using solubilization in SDS and isoelectric focusing in the presence of a high concentration of Nonidet P-40, gave the best separation and resolved the envelope membranes into at least 21 proteins. The major band (pI 6.85) contained both subunits of the carboxylase and at least two additional polypeptides which corresponded to the prominent bands found in SDS gel electrophoresis of chloroplast envelopes.     

Low Temperature Development Induces a Specific Decrease in trans-Delta-Hexadecenoic Acid Content which Influences LHCII Organization

Lipid and fatty acid analyses were performed on whole leaf extracts and isolated thylakoids from winter rye (Secale cereale L. cv Puma) grown at 5°C cold-hardened rye (RH) and 20°C nonhardened rye (RNH). Although no significant change in total lipid content was observed, growth at low, cold-hardening temperature resulted in a specific 67% (thylakoids) to 74% (whole leaves) decrease in the trans-Δ³-hexadecenoic acid (trans-16:1) level associated with phosphatidyldiacylglycerol (PG). Electron spin resonance and differential scanning calorimetry (DSC) indicated no significant difference in the fluidity of RH and RNH thylakoids. Separation of chlorophyll-protein complexes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the ratio of oligomeric light harvesting complex:monomeric light harvesting complex (LHCII₁:LHCII₃) was 2-fold higher in RNH than RH thylakoids. The ratio of CP1a:CP1 was also 1.5-fold higher in RNH than RH thylakoids. Analyses of winter rye grown at 20, 15, 10, and 5°C indicated that both, the trans-16:1 acid levels in PG and the LHCII₁:LHCII₃ decreased concomitantly with a decrease in growth temperature. Above 40°C, differential scanning calorimetry of RNH thylakoids indicated the presence of five major endotherms (47, 60, 67, 73, and 86°C). Although the general features of the temperature transitions observed above 40°C in RH thylakoids were similar to those observed for RNH thylakoids, the transitions at 60 and 73°C were resolved as inflections only and RH thylakoids exhibited transitions at 45 and 84°C which were 2°C lower than those observed in RNH thylakoids. Since polypeptide and lipid compositions of RH and RNH thylakoids were very similar, we suggest that these differences reflect alterations in thylakoid membrane organization. Specifically, it is suggested that low developmental temperature modulates LHCII organization such that oligomeric LHCII predominates in RNH thylakoids whereas a monomeric or an intermediate form of LHCII predominates in RH thylakoids. Furthermore, we conclude that low developmental temperature modulates LHCII organization by specifically altering the fatty composition of thylakoid PG.     

Identification of antigenic components of Toxoplasma gondii by an immunoblotting technique

Proteins of Toxoplasma gondii were separated by SDS-polyacrylamide gel electrophoresis with subsequent transfer to a nitrocellulose sheet by electrophoretic blotting. Immunologically reactive polypeptides were detected by human sera with previously known toxoplasma antibody levels. Heavy chain-specific, peroxidase-conjugated anti-human immunoglobulins were used as the indicator antibodies for the separate identification of IgG and IgM reactive polypeptides. IgG toxoplasma antibodies reacted with several antigens of M_r ≈27 000–67 000, while toxoplasma-specific IgM seemed to detect only a few polypeptides. The M_r of 35 000 for the dominating IgM reactive polypeptide was observed.     

Effects of temperature pretreatment in the dark on photosynthesis of the intact spinach chloroplast

Isolated, intact spinach (Spinacia oleracea L. var. “Long Standing Bloomsdale”) chloroplasts were heated in the dark and the effect of this treatment on photosynthetic activities was determined at 25°C. Dark incubation of the chloroplasts for 10 minutes at 35°C and pH 8.1 resulted in a 50% decline in CO₂ photoassimilation. This decline in photosynthetic performance was dependent upon time, temperature, and medium pH with the optimum effect at acidic pH values. Photosynthetic decline was not observed if MgATP, MgADP, or a mixture of fructose 1,6-bisphosphate, aldolase, and oxaloacetate or ribose 5-phosphate and oxaloacetate was added prior to but not after the temperature pretreatment. A chloroplast preparation reconstituted with thylakoids and stroma from pretreated (35°C, 10 minutes, pH 8.1) intact chloroplasts and supplemented with ferredoxin, ADP, and NADP was photosynthetically competent, indicating that ATP-coupled electron flow and the enzymes comprising the Benson-Calvin cycle remained stable during the dark treatment. In contrast, exposure of isolated thylakoids to 35°C for 10 minutes uncoupled photophosphorylation from NADP and ferricyanide reduction. We propose that the decline of intact chloroplast photosynthesis is the result of a decrease in the content of or a change in the ratios of the adenine nucleotides. Maintenance of an adequate supply of adenine nucleotide is the effect of the externally added MgATP or of chloroplastic respiration of a sugar phosphate.     

Plants under Climatic Stress: II. Low Temperature, High Light Effects on Chloroplast Ultrastructure

Mesophyll chloroplasts of the C₄-pathway grasses Sorghum and Paspalum and of the C₃-pathway legume soybean undergo ultrastructural changes under moderate light intensities (170 w·m⁻², 400-700 nanometers) at a tme when photosynthesis is much reduced by low temperature (10 C). The pattern of ultrastructural change was similar in these species, despite some differences in the initial sites of low temperature action on photosynthesis and differences in their mechanisms of CO₂ fixation. Starch grains in the chloroplasts rapidly reduce in size when chilling stress is applied. At or before the time starch grains completely disappear the membranes of the individual stromal thylakoids close together, reducing the intraspace between them while the chloroplast as a whole begins to swell. Extensive granal stacking appears to hold the thylakoids in position for some time, causing initial swelling to occur in the zone of the peripheral reticulum, when present. At more advanced stages of swelling the thylakoid system unravels while the thylakoid intraspaces dilate markedly. Initial thylakoid intraspace contraction is tentatively ascribed to an increase in the transmembrane hydrogen ion gradient causing movement of cations and undissociated organic acids from the thylakoid intraspace to the stroma. Chloroplast swelling may be caused by a hold-up of some osmotically active photosynthetic product in the chloroplast stroma. After granal unraveling and redilation of the thylakoid intraspaces, chloroplasts appear similar to those isolated in low salt hypotonic media. At the initial stages of stress-induced ultrastructural change, a marked gradient in degree of chloroplast swelling is seen within and between cells, being most pronounced near the surface of the leaf directly exposed to light.     

Isolation and characterization of the outer membrane of Acinetobacter calcoaceticus

A method for the separation of the outer membrane (OM) from the cytoplasmic membrane (CM) of Acinetobacter calcoaceticus 69/V grown on different carbon sources is described. The contamination of the OM with CM was less than 10%. Independent of the carbon source, five protein bands with apparent molecular weights of 47 000, 33000, 21 000, 19 000 and 12 000 were found by solubilization at 37°C and six bands at 100°C (apparent M_r 53 000, 47 000, 38 000, 26 000, 21000, 12000). Three proteins were modifiable by heat. With the periodic acid-Schiff procedure the bands with apparent M_r of 33 000 and 12 000 were made visible. After growth on d,l-carnitine an additional two non-heat-modifiable protein bands with apparent M_r between 40 000 and 45 000 were detected. By cultivation on acetate and peptone as carbon source one additional band (M_r 15 000) from OM of cells could be found.     

Unassembled polypeptides of the plastidic ribosomes in heat-treated 70S-ribosome-deficient rye leaves

The polypeptides of the subunits of 70S ribosomes isolated from rye (Secale cereale L.) leaf chloroplasts were analyzed by two-dimensional polyacrylamide gel electrophoresis. The 50S subunit contained approx. 33 polypeptides in the range of relative molecular mass (M_r) 13000–36000, the 30S subunit contained approx. 25 polypeptides in the range of M_r 13000–40500. Antisera raised against the individual isolated ribosomal subunits detected approx. 17 polypeptides of the 50S and 10 polypeptides of the 30S subunit in the immunoblotting assay. By immunoblotting with these antisera the major antigenic ribosomal polypeptides (r-proteins) of the chloroplasts were clearly and specifically visualized also in separations of leaf extracts or soluble chloroplast supernatants. In extracts from rye leaves grown at 32° C, a temperature which is non-permissive for 70S-ribosome formation, or in supernatants from ribosome-deficient isolated plastids, six plastidic r-proteins were visualized by immunoblotting with the anti-50S-serum and two to four plastidic r-proteins were detected by immunoblotting with the anti-30S-serum, while other r-proteins that reacted with our antisera were missing. Those plastidic r-proteins that were present in 70S-ribosome-deficient leaves must represent individual unassembled ribosomal polypeptides that were synthesized on cytoplasmic 80S ribosomes. For the biogenesis of chloroplast ribosomes the mechanism of coordinate regulation appear to be less strict than those known for the biogenesis of bacterial ribosomes, thus allowing a marked accumulation of several unassembled ribosomal polypeptides of cytoplasmic origin.Abbreviations L polypeptide of large ribosomal subunit - M_r relative molecular mass - r-protein ribosomal polypeptide - S polypeptide of small ribosomal subunit - SDS sodium dodecyl sulfate     

Purification and characterization of the messenger ribonucleoprotein-associated casein kinase II of Artemia salina cryptobiotic gastrulae

The mRNP-associated protein kinase is purified to near homogeneity by ion-exchange chromatography on phosphocellulose and affinity chromatography on casein-Sepharose 4B and ATP-agarose. The cyclic nucleotide-independent enzyme phosphorylates casein using either ATP or GTP. The enzyme exists in two forms composed of subunits with M_r 36 500 (α) and 28 000 (β) and of subunits with M_r 36 500 (α), 33 000 (α′) and 28 000 (β). The undegraded enzyme has an M_r of 136 000 ± 7000. The enzyme is inhibited by heparin and hemin and stimulated by spermine. The mRNP-associated protein kinase may be classified as a casein kinase II. Main mRNP protein phosphate acceptors have M_r values of 112 000, 72 000, 65 000, 53 000, 38 000, 28 000, 23 500 and 21 000. Phosphorylation of the M_r 38 000 poly(A)-binding protein resulted in the generation of different acidic ionic species. From the observed inhibition of the translational activity after phosphorylation by the mRNP-associated protein kinase a function in the repression of mRNP is proposed.     

Separation by blue-native PAGE and identification of the whole NAD(P)H dehydrogenase complex from barley stroma thylakoids

Chloroplasts contain a NAD(P)H dehydrogenase (NAD(P)H DH) complex preferentially located in the stroma thylakoids, which is homologous to the mitochondrial complex I (EC 1.6.5.3). Until now, the separation of this complex by native PAGE has led to its dissociation into several enzymatic activity bands. In this work, we have separated by blue-native PAGE (BN-PAGE) the NAD(P)H DH complex from stroma thylakoids, obtained by sonication of barley (Hordeum vulgare L.), revealing only one band with NAD(P)H-nitroblue tetrazolium oxidoreductase activity and with a molecular mass higher than that of photosystem I. Immunoblotting revealed the presence in the complex of the polypeptide encoded by ndhA chloroplast gene (NdhA), the polypeptide encoded by ndhH chloroplast gene (NdhH), and the 56-kDa NADH-binding polypeptide, which are subunits of the membrane hydrophobic subcomplex, the connecting fragment, and the peripheral subcomplex, respectively, these three subcomplexes being those already reported for the plastidial complex. Additional immunoblotting revealed the association of the complex with ferredoxin-NADP oxidoreductase enzyme (EC 1.18.1.2). The complex electroeluted from the activity band represents 0.9 % of stroma thylakoid protein.     

Coagulation factor V exists uncomplexed in bovine plasma

Bovine coagulation factor V has been examined immunochemically to ascertain whether the coagulant polypeptide (h) with M_r = 290 000–330 000 is complexed in plasma with a second immunochemically distinct polypeptide (I₂) of M_r = 400 000. Antiserum containing antibodies to h and l₂ detects the l₂ polypeptide eluting earlier than the h chain on gel filtration of plasma with either added calcium or EDTA, consistent with the behavior of a higher molecular weight noninteracting species. An immobilized monospecific antibody to l₂ removes only the l₂ polypeptide from a purified factor V preparation containing both h and l₂. Moreover, while a monospecific antibody to the h chain was able to precipitate purified radioactively labelled h chain alone or mixed with plasma, the l₂ antibody was unable to precipitate radioactively labelled h chain even after attempted recombination of the h chain with l₂ present in plasma. These studies indicate that the l₂ polypeptide is not complexed to the h chain in a purified system or in plasma and reinforce the conclusion that factor V is a single polypeptide chain uncomplexed in plasma.     

Ribosome-thylakoid association in peas: influence of anoxia

Isolated pea chloroplast thylakoids ordinarily have ribosomes attached which survive sequential washes. Extensive in vivo loss of these thylakoidbound ribosomes occurred if the pea plants were placed in the dark without O₂ for 2 or more hours. This loss was indicated from measurements of both the total thylakoid-bound RNA levels, and the capacity for amino acid incorporation into proteins on the addition of soluble enzymes for protein synthesis. Stroma ribosome profiles lost any indication of polysome structure due to the same anoxic treatment in vivo. The return of ribosomes to the thylakoids when plants were placed in the light in air occurred over an 8-hour time course. This return was prevented by lincomycin, spectinomycin, and chloramphenicol, indicating a requirement for protein synthesis steps in the stroma at some point in the reassociation process.     

Des activites photosynthetiques sans les complexes pigmentaires CP1 et CP2

Photosynthetic activity in the absence of the CP1 and CP2 pigmentary complexesVarious photochemical activities were tested on chloroplasts of Zea mays that received 4 s of light every 4 h during the culture period. Photosystem I and Photosystem II were functioning, as well as the photosynthetic electron transport. These chloroplasts exhibited upon sodium dodecyl sulphate gel electrophoresis neither Complex 1 (M_r 70 000) generally associated with Photosystem I nor Complex 2 M_r 25 000) generally associated with Photosystem II. Chlorophyll is indeed attached to polypeptides of molecular weight 21 000 and 29 000.These results lead us to question the functional role of chloroplast protein-pigment complexes observed by sodium dodecyl sulphate gel electrophoresis.     

Sequence interrelationships of the subunits of vicilin from pea seeds

Serological studies and comparison of N-terminal amino acid sequences with the amino acid sequence deduced from a cDNA clone have been used to establish the sequence relationships between the subunits of the pea seed storage protein, vicilin. Subunits smaller than M_r～50 000 (i.e., M_r 34 000, 30 000, 25 000, 18 000, 14 000, 13 000 and 12 000) show extensive homology with molecules within M_r～50 000 group. Both the sequencing and serological data confirm earlier evidence from studies on vicilin synthesisin vivo andin vitro which indicated that the vicilin subunits smaller than M_r～50 000 arose by endoproteolytic cleavage of parent molecules within the M_r～50 000 group. Cleavage in different M_r 50 000 parent molecules containing either one or both of two susceptible processing sites accounts for the formation of all the vicilin subunits smaller than M_r～50 000, with the possible exception of the M_r34 000 polypeptide. The position of these sites in the putative parents were defined by reference to a complete amino acid sequence deduced from the sequence of DNA complementary to mRNA for one member of the M_r～50 000 group.     

A protein essential for recovering oxygen evolution in cholate-treated chloroplasts

A novel method for the reconstitution of oxygen evolution in cholate-extracted spinach thylakoid membranes was established and a protein essential for the reconstitution was purified from cholate extracts. Purification of the protein was accomplished by chromatography on a DEAE-Sephacel column. This protein (M_r 17 000) was reinserted into vesicular membranes reconstituted from cholate-extracted thylakoids in the presence of 25% glycerol to reactivate oxygen evolution.