A Secondary Processing Site in the Precursor of the Small Subunit of Ribulose Bisphosphate Carboxylase of Chlamydomonas reinhardtii y-1

When the precursor of ribulose bisphosphate carboxylase of Chlamydomonas reinhardtii y-1 is bound to antibodies and treated with the soluble cell fraction, it is cleaved to the mature form (M_r 16,500) via an intermediate of M_r 18,500. Although this intermediate has only been observed in vitro, it may be produced during processing of the precursor in vivo.     

Biosynthesis of the Snowdrop (Galanthus nivalis) Lectin in Ripening Ovaries

The biosynthesis and processing of the Galanthus nivalis agglutinin were studied in vivo in ripening snowdrop ovaries. Using labeling and pulse chase labeling experiments it could be demonstrated that the snowdrop lectin is synthesized as a precursor of relative molecular weight (M_r) 15,000 which is posttranslationally converted into the authentic lectin polypeptide of M_r 13,000 with a half-life of about 6 hours. Gel filtration of an extract of [³H]leucine labeled ovaries on Sepharose 4B showed that a significant portion of the newly synthesized lectin is associated with the particulate fraction. When the organellar fraction was fractionated on isopycnic sucrose gradients this lectin banded in the same density region as the endoplasmic reticulum (ER) marker enzyme NADH cytochrome c reductase. Both radioactivity in lectin and in enzyme activity shifted towards a higher density in the presence of 2 millimolar Mg-acetate indicating that the labeled lectin was associated with the rough ER. Labeled lectin could be chased from the ER with a half-life of 4 hours and then accumulated in the soluble fraction. Whereas the ER-associated lectin contains exclusively polypeptides of M_r 15,000 the soluble fraction contains both precursor molecules and mature lectin polypeptides. The snowdrop lectin in the ER is fully capable of binding immobilized mannose. It is associated into tetramers with an appropriate molecular weight of 60,000. These results indicate that newly synthesized snowdrop lectin is transiently associated with the ER before transport and processing.     

Structural similarities between the major polypeptides of thylakoid membranes from Chlamydomonas reinhardtii

The major polypeptides of thylakoid membranes from Chlamydomonas reinhardtii were purified by preparative gel electrophoresis and examined for structural similarities. The largest of these polypeptides has an apparent molecular mass of 29,500 ± 500 daltons, whereas the other two both have an apparent mass of 26,000 ± 500 daltons. The amino acid compositions and uv-absorption spectra of the 29K- and 26K-dalton polypeptides are very similar. The same pattern of release of amino acids was obtained from both fractions by digestion with carboxypeptidase Y. Endoproteolytic digestion with trypsin, chymotrypsin, staphylococcal protease, and mild acid yielded identical patterns of N-terminal amino acids from both the 29K- and 26K-dalton polypeptides. However, different patterns of peptides were found after electrophoresis of fragments generated by digestion with staphylococcal protease. Conditions of electrophoresis were defined that permitted separation of the 26K-dalton fraction into two components, designated as polypeptides 16 and 17 in the identification system of Chua and Bennoun (1975, Proc. Nat. Acad. Sci. USA72, 2175–2179). Amino acid compositions of these two polypeptides are nearly identical. Polypeptide 16 contained N-terminal isoleucine, but no free N-terminal amino group was detected in polypeptide 17. Electrophoretic analysis of staphylococcal protease digests of these two polypeptides revealed significant differences in the patterns of peptides. These data confirm that there are three distinct major polypeptides in these membranes, which are present at nearly equal amounts. However, the data also suggest that significant similarities in amino acid sequence exist between these polypeptides.     

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.     

Studies on the structure of the calcium-dependent adenosine triphosphatase from rabbit skeletal muscle sarcoplasmic reticulum

The linear arrangement of the three fragments of Ca²⁺-ATPase from rabbit skeletal muscle sarcoplasmic reticulum with molecular weights of 20,000, 30,000, and 45,000 obtained by limited tryptic hydrolysis was determined by locating the NH₂-terminal acetylated methionyl residue of the original peptide in the M_r = 20,000 fragment. Since both the M_r = 20,000 and 30,000 polypeptides originate from a M_r = 55,000 fragment which is distinct from the M_r = 45,000 polypeptide, the sequence of these three fragments was determined to be 20,000, 30,000, and 45,000. The M_r = 20,000 fragment was further cleaved by cyanogen bromide to yield a M_r = 7,000 COOH-terminal fragment which is relatively hydrophilic. The NH₂-terminal portion is rich in glutamyl residues. The COOH-terminus of the M_r = 30,000 fragment was determined by both digestion with carboxypeptidases and cyanogen bromide cleavage. Using the partial amino acid sequence of the Ca²⁺-ATPase, it was deduced that the active site phosphoaspartyl residue is 154 amino acids from the COOH-terminus of the M_r = 30,000 fragment and hence approximately 35,000 M_r from the NH₂-terminus of the original Ca²⁺-ATPase molecule. Furthermore, it was shown that the two tryptic cleavages of the Ca²⁺-ATPase generating these three large fragments were both single hydrolyses of arginylalanine peptide bonds.     

The Water Oxidation Complex of Chlamydomonas: Accumulation and Maturation of the Largest Subunit in Photosystem II Mutants

Photosystem II particles of Chlamydomonas reinhardtii contain three extrinsic polypeptides of 29, 20, and 16 kilodaltons, whose functions are incompletely defined. We prepared a monospecific polyclonal antibody against the 29 kilodalton protein and determined that it also specifically recognizes a protein of approximately 33 kilodaltons in thylakoid membrane fractions of several vascular plants, eukaryotic algae, and a cyanobacterium. The cross-reacting 33 kilodalton protein of pea was removed from inverted thylakoid vesicles by CaCl₂ washes demonstrating the structural relationship between the Chlamydomonas polypeptide and the largest subunit of the water oxidation complex of vascular plants. Functional identity of the Chlamydomonas polypeptide was confirmed by antibody inhibition of O₂ evolution in inverted pea vesicles. In contrast to wild-type cells, only low levels of the 29 kilodalton polypeptide are recovered with purified thylakoid membranes of the mutants examined. However, we show that the mature form of the 29 kilodalton polypeptide accumulates to wild-type levels in whole cell extracts of photosystem II deficient mutants and a water oxidation mutant of Chlamydomonas. Impaired membrane assembly has no effect on the maturation or stability of this component of the multi-subunit water oxidation complex.     

Regulation of accumulation of the major thylakoid polypeptides in Chlamydomonas reinhardtii y-1 at 25 degrees C and 38 degrees C

The amount of messenger RNA (mRNA) for polypeptides of the chlorophyll a/b-protein complex of thylakoid membranes in etiolated and greening cells of Chlamydomonas reinhardtii y-1 was examined by immunoprecipitation and electrophoresis of products of in vitro translation to determine at which stage production of these polypeptides is regulated. Cells grown 4 d in the dark at 25 degrees C contained small amounts of translatable mRNA for the major membrane polypeptides. Exposure of these etiolated cells to light, under conditions in which the membrane polypeptides accumulated, resulted in a significant increase in the quantity of the mRNA. In contrast, when etiolated cells were incubated for 1-2 h in the dark at 38 degrees C, translation assays indicated that mRNA for the membrane polypeptides became abundant. Moreover, the quantity of the mRNA did not increase when these cells subsequently were exposed to light. Therefore, at 38 degrees C the cellular level of the polypeptides is not regulated by synthesis of mRNA. The in vitro synthesized polypeptides, which were precipitated with antibodies prepared against the purified thylakoid polypeptides, had apparent molecular weights of 31,500 and 30,000. The corresponding immunoprecipitated polypeptides made in vivo had apparent molecular weights of 29,500 and 26,000. Thus, the membrane polypeptides are made as precursors. No net accumulation of the polypeptides occurred in cells in the dark at 38 degrees C, but immunoreactive polypeptides the size of the mature membrane components were labeled during incubation of cells with [14C]acetate in the dark. These results indicated that the mRNA was translated in the dark, but since the polypeptides did not accumulate, the products of translation were probably degraded. We conclude from our experiments that at 25 degrees C production of the polypeptides is regulated by the level of translatable mRNA in the cells. At 38 degrees C, however, the accumulation of the polypeptides is controlled by posttranslational processes.     

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.     

Protein processing as a regulatory mechanism in the synthesis of the photosynthetic antenna in Chloroflexus

Chloroflexus aurantiacus can be induced to shift from respiratory to photosynthetic energy production by introducing light and/or lowering the oxygen concentration of a culture. After induction, cells synthesize bacteriochlorophyll and proteins for the formation of a functional photosynthetic apparatus. Bacteriochlorophyll is detectable within 2 h after induction. Chlorosome polypeptides are detected after 8–12 h. Two proteins, M_r 60,000 and M_r 47,000, are present in both induced and noninduced cells and react specifically with antibodies against chlorosome polypeptides. Immunological data suggest that these proteins (M_r 60,000 and 47,000) are polyproteins which are transcribed and translated in the dark. When cells are exposed to light or low oxygen tension these proteins are processed into functional polypeptides required in the assembly of the chlorosome. The reaction center polypeptide (M_r 26,000) appears to be part of a separate genetic control system.Dedicated to Prof. G. Drews on occasion of his 60th birthday     

Proteolysis of cardiac gap junctions during their isolation from rat hearts

Summary Gap junctions (GJ) isolated from rat hearts in presence of the protease inhibitor phenylmethylsulfonylfuoride (PMSF) contain a M_r 44,000 to 47.000 major polypeptide and have a urea-resistant layer of fuzz on their cytoplasmic surfaces, whereas junctions isolated without PMSF are proteolyzed to a M_r 29.500 polypeptide by a serine protease and have smooth cytoplasmic surfaces (C.K. Manjunath, G.E. Goings & E. PageAm. J. Physiol. 246:H865–H875, 1984). Rat liver GJ isolated with or without PMSF contain a M_r 28,000 polypeptide and have smooth cytoplasmic surfaces. Here we examine the origin, type and inhibitor sensitivity of the heart protease; why similar proteolysis is absent during isolation of rat liver gap junctions; and whether the M_r 44.000 to 47,000 cardiac GJ polypeptide is the precursor of the M_r 29,500 subunit. We show that the M_r 44,000 to 47,000 polypeptide corresponds to the unproteolyzed connexon subunit; that proteolysis of this polypeptide occurs predominantly during exposure to high ionic strength solution (0.6m KI) which releases serine protease from mast cell granules; that this protease is inhibitable with PMSF and (less completely) soybean trypsin inhibitor and chymostatin; and thatin vivo degranulation of mast cells by injecting rats with compound 48/80 fails to prevent breakdown of cardiac GJ during isolation. The results support the concept that GJ from rat heart and liver differ in protein composition.     

Leishmania tropica: Surface antigens of intracellular and flagellate forms

Promastigotes and amastigotes of Leishmania tropica were surface-radioiodinated using the lactoperoxidase technique. Detergent lysates of the labeled organisms were analyzed by two-dimensional gel electrophoresis. Analysis of radioiodinated promastigote membrane proteins revealed six major and some minor acidic polypeptides. Analysis of the amastigote membrane proteins revealed six major proteins, mostly acidic, and some poorly resolved basic proteins. Four of the major membrane proteins appeared to be common to the two parasitic forms (M_r 67,000, M_r 50,000, M_r 68,000, and M_r 80,000). These polypeptides were recognized by antipromastigote antibodies as well as antibodies from CBA/H mice that had recovered from infection. Peptide mapping confirmed their homology in the two parasite forms. One polypeptide appeared to be specific for the promastigote (M_r 50,000) and two polypeptides appeared to be specific for the amastigote form of the parasite (M_r 94,000 and M_r 43,000).     

Identification, Purification and Properties of the Precursor of Conglutin {beta}, The 7S Storage Globulin of Lupinus albus L. Seeds

Lupinus albus L. developing cotyledons 35 d after floweringcontained a major polypeptide of-average M_r 64000, immunologicallyrelated to conglutin ß, the 7S storage globulin ofthis seed. This polypeptide decreased during seed maturation,without completely disappearing in the mature seed. This dropwas accompanied by the formation of polypeptide fragments typicalof the mature conglutin ß. The 64000 polypeptide hasbeen identified as the precursor polypeptide of conglutin ß. Undenatured conglutin ß precursor, purified by ionexchange chromatography and size exclusion chromatography, showedsurface and association properties identical to the mature conglutinß molecule. The precursor oligomer, of M_r 190000,consisted of an association of three 64000 subunits. They stronglyreacted with concanavalin A indicating the presence of covalentlylinked carbohydrate. Tryptic treatment of the undenatured conglutin ß precursorled to the accumulation of a relatively stable 59000 polypeptidewhich was cleaved later on and produced three large polypeptidefragments differing from the mature conglutin ß polypeptides. Key words: Conglutin ß, precursor, developing seeds, Lupinus albus L.     

Chloroplast thylakoid membrane proteins having buried amine buffering groups

Some chloroplast thylakoid membrane proteins have anomalously low pK_a (near 7.8) amine groups, indicating that the buffering groups may be buried in hydrophobic regions and/or close to other positive charges. Other work has shown that the low pK_a amine group array is not in ready equilibrium with either the inner or outer bulk aqueous phases (Laszlo, J.A., Baker, G.M. and Dilley, R.A. (1984) J. Bioenerg. Biomembranes, 16, 37–51). Acetic anhydride reacts with the neutral amine and has been used as a probe for labeling the low pK_a amines. The buried array of buffering groups can be labeled with [³H]acetic anhydride in the dark only after the membranes were made leaky to protons with uncoupler addition. Sodium dodecyl sulfate/urea-polyacrylamide gel electrophoresis was used to separate the polypeptides and identify those that show the uncoupler-dependent labeling increase. Included in that group are polypeptides known to be associated with Photosystem II having M_r 17000, 22000 and 31000, some of the light-harvesting pigment proteins with M_r 24000–28000, the CF₀ component with M_r 8000 and some polypeptides associated with Photosystem I. A protein with M_r 15000 showed very large changes in labeling, but the identity of this polypeptide is unknown. The arrays of buried amine buffering groups are diversely distributed among membrane proteins and it is not clear what role, if any, they play in membrane function.     

Identification and Purification of a Derepressible Alkaline Phosphatase from Anacystis nidulans R2

We have examined the increase in alkaline phosphatase activity in the cyanobacterium Anacystis nidulans R2 upon phosphate deprivation. Much of the activity is released into the medium when A. nidulans is osmotically shocked, indicating that the enzyme is located either in the periplasmic space or is loosely bound to the cell wall. The polypeptide associated with phosphatase activity has been identified as a single species of M_r 160,000. Several lines of evidence demonstrate that this polypeptide is responsible for alkaline phosphatase activity: (a) It is absent when cells are grown in the presence of phosphate and specifically accumulates during phosphate deprivation. (b) It is the major periplasmic polypeptide extracted by osmotic shock. (c) It represents over 90% of the protein in a fraction of periplasmic polypeptides enriched for phosphatase activity. (d) Antibodies raised against the purified species of M_r 160,000 inhibit phosphatase activity by approximately 70%.     

Polypeptide composition and biosynthesis of the yolk proteins in the firebrat,Thermobia domestica (insecta,thysanura)

Ion-exchange chromatography of crude ovarian extracts of the primitive insect Thermobia domestica allowed the separation, in native conditions, of major and minor vitellins of molecular weights of 300,000 and 430,000, respectively. Their polypeptide subunits were determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunotransfer using an antiserum prepared against major vitellin. This protein was resolved into large (M_r 166,000–212,000) and small (around M_r 50,000) polypeptides. Minor vitellin, on the other hand, exclusively contained small polypeptides that are immunologically different from those of the major vitellin. Vitellogenin polypeptides from the hemolymph of mature females exhibited electrophoretic mobilities and immunological properties similar to vitellin polypeptides. Pulse-chase experiments showed that the female fat body synthesizes radioactive and immunoprecipitable proteins, whose polypeptide pattern is close to that of the major vitellogenin. However, part of the primary vitellogenic polypeptides, at M_r 210,000 and 212,000, is rapidly processed to M_r 176,000 and 182,000 subunits. These two polypeptides, as well as the precursors, enter into the composition of the major hemolymph vitellogenin. Finally, processing of the still uncleaved 210,000–212,000 polypeptides takes place in the ovary, which performs the same step of vitellogenin maturation as the fat body.     

Fat metabolism in higher plants. Differential incorporation of acyl-coenzymes A and acyl-acyl carrier proteins into plant microsomal lipids.

Coupling factor 1 and ribulose-diphosphate carboxylase are the main peripheral proteins associated with chloroplast internal membranes. The two proteins were sequentially solubilized and purified by gel filtration and their subunit structure was characterized by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The differences between the polypeptide profiles of the insoluble membrane fraction, before and after extraction of these oligomeric proteins, allowed identification of original membrane peptides with specific protein subunits. The 52,000 and 14,000 molecular weight peaks are identical to the large and small subunits, respectively, of ribulose-diphosphate carboxylase; the 56,000 and 53,000 peaks are identified with the α and β subunits, respectively, of the coupling factor protein. These identifications, together with earlier studies on the 25,000 M_r band, assign a physiological role to the most prominent peptides of chloroplast internal membranes. Now it becomes apparent that the major membrane polypeptides do not directly relate to photosynthetic electron transport components, but rather to enzymatic capacities associated with this process and to the light-gathering antenna of the photosynthetic unit. The observation that chloroplast coupling factor 1 dissociates during gel filtration, with preferential loss of the smaller subunits (M_r < 50,000) is discussed in relation to the possible function of these subunits in situ in the thylakoid membrane.     

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.     

Polypeptide structure of human terminal transferase

The polypeptide structure of terminal transferase purified from human lymphoblasts was examined with an immunoblot procedure using rabbit anti-calf thymus terminal transferase antibodies. Two doublets of bands of M_r 58-56,000 and M_r 44-42,000 are the major immunoreactive polypeptides. Only the M_r 44-42,000 polypeptides can be efficiently renatured $\text{in}\text{situ}$ after polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. Controlled degradation with trypsin produces fully active enzyme containing the α and β polypeptides typical of the low molecular weight terminal transferase, suggesting that the different forms of purified terminal transferase may arise by proteolysis of the M_r 58,000 polypeptide.     

Characterization of alpha-Amylase-Inhibitor, a Lectin-Like Protein in the Seeds of Phaseolus vulgaris

The common bean, Phaseolus vulgaris, contains a glycoprotein that inhibits the activity of mammalian and insect α-amylases, but not of plant α-amylases. It is therefore classified as an antifeedant or seed defense protein. In P. vulgaris cv Greensleeves, α-amylase inhibitor (αAl) is present in embryonic axes and cotyledons, but not in other organs of the plant. The protein is synthesized during the same time period that phaseolin and phytohemagglutinin are made and also accumulates in the protein storage vacuoles (protein bodies). Purified αAl can be resolved by SDS-PAGE into five bands (M_r 15,000-19,000), four of which have covalently attached glycans. These bands represent glycoforms of two different polypeptides. All the glycoforms have complex glycans that are resistant to removal by endoglycosidase H, indicating transport of the protein through the Golgi apparatus. The two different polypeptides correspond to the N-terminal and C-terminal halves of a lectin-like protein encoded by an already identified gene or a gene closely related to it (LM Hoffman [1984] J Mol Appl Genet 2: 447-453; J Moreno, MJ Chrispeels [1989] Proc Natl Acad Sci USA 86:7885-7889). The primary translation product of αAl is a polypeptide of M_r 28,000. Immunologically cross-reacting glycopolypeptides of M_r 30,000 to 35,000 are present in the endoplasmic reticulum, while the smaller polypeptides (M_r 15,000-19,000) accumulate in protein storage vacuoles (protein bodies). Together these data indicate that αAl is a typical bean lectin-type protein that is synthesized on the rough endoplasmlc reticulum, modified in the Golgi, and transported to the protein storage vacuoles.     

Nucleotide sequence of cDNA clones encoding the complete precursor for subunit delta of thylakoid-located ATP synthase from spinach

The nucleotide sequence of the entire nuclear-encoded precursor for subunit delta of the ATP synthase from spinach thylakoid membranes was determined by cDNA sequencing. Appropriate recombinant DNAs were selected from pBR322 and lambda gt11 libraries made from polyadenylated RNA of greening spinach seedlings. The mature protein consists of 187 amino acid residues corresponding to a molecular weight of 20468. The precursor protein (257 amino acid residues; M _r=27676) is probably processed between a Met-Val bond. The predicted secondary structure of the transit sequence (70 residues; 7.2 kDa) resembles that of the Rieske Fe/S polypeptide, but shows little similarity with those of stromal or luminal proteins. The comparison of the chloroplast delta amino acid sequence with the published delta sequences from respiratory ATP synthases of bacterial and mitochondrial sources and from the thylakoid ATP synthase of the cyanobacterium Synechococcus suggests substantial divergence at the genic level although structural elements appear to be remarkably conserved.