Acyl-(acyl-carrier protein) hydrolase from squash cotyledons specific to long-chain fatty acids: purification and characterization

Acyl-(acyl-carrier-protein) hydrolase (EC 3.1.2.14) releases fatty acids from the end-product of fatty acid synthesis in plastids for the subsequent synthesis of glycerolipids in the cytoplasm. Isoelectric focusing of chloroplast stroma proteins from squash cotyledons suggested that there were at least three isomeric forms of acyl-(acyl-carrier-protein) hydrolase having pI values of 4.5, 5.3 and 7.8. The pI 4.5 and pI 5.3 forms showed maximum activity at pH 9.8 whereas the activity of the pI 7.8 form increased within the range 6.2 to 10.2 but no optimum was seen. The pI 4.5 form was purified 100 000-fold from squash cotyledons. The highly purified fraction contained two polypeptides, whose molecular masses were estimated to be 35 kDa and 33 kDa by SDS-PAGE. It is suggested that the 33 kDa polypeptide was a degradation product of the 35kDa polypeptide. Oleoyl-(acyl-carrier protein) was the preferred substrate of this enzyme over palmitoyl- and stearoyl-(acyl-carrier protein), whereas lauroyl-(acyl-carrier protein) was nearly inactive. These results indicate the enzyme is specific for long-chain acyl-(acyl-carrier protein).     

Isolation of the epithiospecifier protein from oil-rape (Brassica napus ssp. oleifera) seed and its characterization

The epithiospecifier protein (ESP) is a myrosinase (MYR) cofactor, which is necessary to drive the MYR-catalyzed hydrolysis of some specific glucosinolates towards the production of cyanoepithioalkanes instead of isothiocyanates and nitriles. ESP was isolated from Brassica napus seeds by anionic exchange and gel filtration chromatography. ESP showed a molecular weight of about 39 kDa and pI 5.3. The amino acid sequence of several tryptic peptides of ESP (accounting for about 50% of the total sequence) made it possible to establish the high similarity (81% identity) with a hypothetical 37 kDa protein (TrEMBL data base accession number Q39104) and several jasmonate-inducible proteins from Arabidopsis thaliana. This observation suggests that ESP is likely to be involved in jasmonate-mediated defence and disease resistance mechanisms.     

Uroporphyrinogen decarboxylases from human erythrocytes: purification, complete separation and partial characterization of two isoenzymes.

1. Two distinct molecular forms of uroporphyrinogen decarboxylase have been completely separated and highly purified from human erythrocytes. 2. Each protein, with molecular masses of about 52-54 kDa and 35 kDa, are apparently composed of a single polypeptide chain. 3. They may form a functional decarboxylating complex for heme biosynthesis.     

Purification and properties of D-myo-inositol 1,4,5-trisphosphate 3-kinase from rat brain. Susceptibility to calpain

A new, rapid method for purification of inositol(1,4,5)P3 3-kinase in high yield from rat brain is described. Purified enzyme exhibited a polypeptide of Mr = 53,000 on sodium dodecyl sulfate-polyacrylamide gel and a specific activity of 29 mumol/min/mg at 37 degrees C in the absence of calmodulin. Inclusion of calpain inhibitors was critical for obtaining the 53-kDa protein as the major product and 0.1% of the zwitterionic detergent, 3-[(3-cholamidopropyl)dimethylamino]-2-propanesulfonate, was necessary to stabilize enzyme activity. In the absence of calpain inhibitors, the 53-kDa protein degraded progressively during purification and yielded a mixture containing polypeptides of various sizes. Relative intensity of these degradation products on sodium dodecyl sulfate-polyacrylamide gel varied from one preparation to another. However, broad band(s) at the 42-45 kDa region and a band at 35 kDa were always weak, while bands of 53, 51, 40 (sometimes doublets), 33, and 32 KDa were usually strong. The fact that all of these polypeptides including the weak bands of 42-45 and 35 kDa were derived from the 53 kDa form was confirmed by their immunocross-reactivity with monoclonal antibodies to the 53 kDa form. When the 51, 40, and a mixture of the 33 and 32 kDa forms were obtained separately and nearly free from other forms, each of them exhibited catalytic activity. Nevertheless, calmodulin binds to polypeptides larger than 35,000 but not to the 33 and 32 kDa forms. Incubation of the purified 53 kDa form with calpain generated a fragmentation pattern nearly identical to that generated during purification in the absence of calpain inhibitors. Incubation with five other endoproteases produced proteolytic fragments slightly different from those by calpain. However, the general fragmentation patterns generated by the proteases were similar, suggesting that inositol(1,4,5)P3 3-kinase contains several motifs susceptible to a variety of proteases.     

A 36-kDa mitochondrial protein is responsible for cyanide-resistant respiration in Hansenula anomala

Antimycin A-dependent induction of cyanide-resistant respiration in Hansenula anomala was reversibly blocked by carbonylcyanide-m-chlorophenylhydrazone (CCCP). When the cells were pulse-labeled with [35S]methionine in the presence of both antimycin A and CCCP, the radioactivity was incorporated into a 39 kDa mitochondrial protein. Upon removal of CCCP, this protein was processed into a 36 kDa form. The increase in the 36 kDa protein completely paralleled that in cyanide-resistant respiration activity, suggesting that the 39 kDa protein is the precursor of the 36 kDa protein, which is responsible for cyanide-resistant respiration.     

Immunological Evidence of Connexin-like Proteins in the Plasma Membrane of Vicia faba L.

Plasma membranes from three week old leaves of Vicia faba L. were enriched by aqueous two-phase partitioning to high purity. Plasma membrane proteins were immunoblotted with polyclonal, monospecific antibodies raised against mouse liver connexins (cx) 32 and 26. Immunostaining after treatments with cx 32 antibodies revealed the existence of a 29 kDa protein, clearly enriched in the plasma membrane fraction. An additional immunoreactive band of 20 kDa, possibly a degradation product of the 29 kDa protein, was found in the soluble fraction. When immunoblots were incubated with cx 26 antibodies, a 40 kDa band with a strong immunoresponse appeared, assumed to present the dimeric form of a 21 kDa, cx 26-like plant protein. The monomeric form could be only obtained when intact leaf material or mesophyll protoplasts from three week old plants were directly SDS-extracted. Furthermore, in young, one week old leaves, the monomer seems to exist in larger amounts, together with another crossreacting 35 kDa protein. The 29 kDa (cx 32-related) as well as the 40 kDa (cx 26-related) polypeptide is obviously located in the plasma membrane. The 40 kDa protein has to be considered as a new connexin-like plant protein.     

Biosynthesis of nonspecific lipid transfer protein (sterol carrier protein 2) on free polyribosomes as a larger precursor in rat liver

The biosynthesis of nonspecific lipid transfer protein (nsLTP) was investigated. Total RNA of rat liver was translated in a rabbit reticulocyte lysate cell-free protein-synthesizing system with [35S]methionine as label. The immunoprecipitation of translation products with affinity-purified anti-nsLTP antibody yielded 14.5- and 60-kDa [35S]polypeptides. The molecular mass of the former polypeptide was approximately 1.5 kDa larger than that of the purified mature nsLTP (13 kDa). The site of synthesis of nsLTP was studied by in vitro translation of free and membrane-bound polyribosomal RNAs followed by immunoprecipitation. mRNA for both the 14.5- and 60-kDa polypeptides were found predominantly in the free polyribosomal fraction in both normal and clofibrate-treated rats. Clofibrate, a hypolipidemic drug that proliferates peroxisomes, did not increase the relative amount of nsLTP mRNA in rat liver. Pulse-chase experiments in rat hepatoma H-35 cells suggested that nsLTP was synthesized as a larger precursor of 14.5 kDa and converted to a mature form of 13 kDa. We have recently shown that nsLTP is highly concentrated in peroxisomes in rat hepatocytes [Tsuneoka et al. (1988) J. Biochem. 104, 560-564]. Taken together, these results suggest that nsLTP is synthesized as a larger precursor of 14.5 kDa on cytoplasmic free polyribosomes, then post-translationally transported to peroxisomes, where the precursor is presumably proteolytically processed to its mature form of 13 kDa. The relationship between the 13-kDa nsLTP and the 60-kDa polypeptide is also discussed.     

Preliminary analysis of the proteolytic enzymes in the excretory-secretory products of the adult stages of the dog hookworm Uncinaria stenocephala

The paper describes an introductory characterisation of proteinases present in the excretory-secretory products (ESP) of adult Uncinaria stenocephala. In SDS-PAGE gelatine substrate gels ESP resolved as a six bands of proteolytic activity, with a molecular weight of 182, 159, 98, 50, 39 and 26 kDa. The 98 and 39 kDa components were serine proteinases. The 50 kDa band was sensitive to a metalloproteinase inhibitor. The 26 kDa component was highly sensitive to cysteine proteinase inhibitors and was also partially inhibited in the presence of EDTA. The bands of 182 and 159 kDa were sensitive to a Zn-metalloproteinase inhibitor. The enzymes present in ESP showed the highest proteolytic activity at pH 8-9. Quantitative analysis revealed maximum proteolytic activity of the polypeptides of 159 and 182 kDa at pH 7; 98 and 26 kDa at pH 8 while the 50 kDa and 39 kDa components showed the highest activity at pH 9.     

A 35-kDa polypeptide of the crystalline lens in the common frog: its biochemical properties, tissue specificity and appearance in the developmental process

The vertebrate lens contains so-called taxon-specific water-soluble proteins. One of them is p-crystallin with a molecular weight of 35 kDa characteristic of Ranidae family. We have identified a polypeptide with a molecular weight of 35 kDa in the eye lens of Rana temporaria which: (1) can be extracted from the lens by aqueous salt solutions, (2) has a molecular mass of 36.1 +/- 0.4 kDa (by SDS-electrophoresis) and 37 kDa (by gel filtration), (3) is heterogeneous in terms of isoelectric point (pI 6.5-8.0), (4) binds to heparin-agarose, (5) denatures in response to freezing-thawing, lyophilization and in solutions with low ionic strength. Thus, major biochemical parameters of this polypeptide differ from that of amphibian alpha, beta- and gamma-crystallins. In addition to lens, 35 kDa polypeptide was detected by immunoelectroblotting in retina, testes, liver, kidney, spleen, stomach, intestine and lungs. Its level (as percentage of water-soluble protein) is 1.1 +/- 1.4% in the lens, 1.6 +/- 0.7% in retina. 0.05% in testes and liver and 0.01% or less in other organs. Thus, despite its wide tissue distribution, 53 kDa polypeptide is expressed predominantly in lens and retina. We studied the time-course of appearance and accumulation of this polypeptide in tissues where it is expressed at high or low levels. 35 kDa polypeptide was detected for the first time during larval development: (1) in the lens (some time after the mouth opening; stages 33-34 according to Dabagian and Sleptsova, 1975), (2) in the retina (by the time of anus opening; stages 36-37), (3) in the liver (at the stage of elongated hind limb bud; stages 40-41). Definitive expression level of this protein was achieved in the lens by the beginning of metamorphosis and in the retina and liver during first months of development. Hence, during the whole period of larval development 35 kDa polypeptide content of the lens exceeds that of retina or liver. A more substantial evidence is required to confirm the identity of studied polypeptide with rho-crystallin.     

Sucrose-phosphate synthase from wheat. Characterization of peptides by immunoblotting analysis

The structure of sucrose-phosphate synthase (SPS: EC 2.4.1.14) from wheat ( Triticum aestivum L. cv. San Agustin was studied using antibodies prepared against the enzyme purified from wheat germ. The antibodies revealed the presence of 55 and 35 kDa polypeptides in wheat germ, endosperm, embryos and whole seed, while in whole wheat leaf, a 90 kDa was detected. It is not clear whether the 35 and 55 kDa polypeptide are truly subunits of SPS or they are the product of protease action, more active in non-photosynthetic tissues than in leaves. The antibodies from wheat germ clearly recognized polypeptides in leaf protein preparations from other plants (barley, soybean, maize) and, weakly in others (peanut, tobacco). It did not recognize any polypeptide in spinach and mustard leaf extracts. In the case of maize leaf, a peptide of higher molecular mass (116 kDa) than the wheat ones was revealed. The results may indicate the presence of different polypeptide compositions for sucrose-phosphate synthase, and suggest the existence of at least two types of this enzyme.     

Structural characterization of the dihydropyridine receptor-linked calcium channel from porcine heart.

Ca(2+)-channel was purified 230-fold from digitonin extracts of the porcine cardiac sarcolemmal membranes by means of a four-step procedure. Two antibodies, a site-directed antibody against the sequence 1691-1707 of the rabbit cardiac alpha 1 subunit (anti-CCP5) and a monoclonal antibody directed to rabbit skeletal muscle alpha 2 delta subunit-complex (MCC-1), effectively immunoprecipitated the 125I-labeled cardiac Ca(2+)-channel complex in 0.2% digitonin. SDS-PAGE analysis of the immunoprecipitates under reducing conditions revealed that the cardiac channel is mainly composed of two large polypeptides of 190 and 150 kDa, and five smaller polypeptides of 60, 55, 35, 30, and 25 kDa. An additional polypeptide of either 79 or 55 kDa is crosslinked with the 190 kDa component to form 250-270 kDa (approximately 270 kDa) to the extent of 15-20% through disulfide bond(s). The 190 kDa component (alpha 1) is responsible for photoaffinity labeling with [3H]diazepine, since minor photolabeled approximately 270 kDa was converged to the major labeled 190 kDa component when electrophoresed under reducing conditions. The 150 kDa component (alpha 2) was derived by reduction of disulfide bonds from another 190 kDa component of glycopolypeptide which was separated from the channel complex in 1% Triton X-100 and capable of binding to WGA-Sepharose. The four smaller components of 60, 35, 30, and 25 kDa were not covalently associated with the large components through disulfide bonds, whereas the 55 kDa polypeptide was suggested to be a mixture of two kinds of peptides with respect to the disulfide bond: one was crosslinked with alpha 1 through disulfide linkage and the other was not covalently associated with any other component.(ABSTRACT TRUNCATED AT 250 WORDS)     

Protease activity of 80 kDa protein secreted from the apicomplexan parasite Toxoplasma gondii

This study describes the characterization of 80 kDa protease showing gelationlytic property among three proteases in the excretory/secretory proteins (ESP) from Toxoplasma gondii. The protease activity was detected in the ESP but not in the somatic extract of RH tachyzoites. This protease was active only in the presence of calcium ion but not other divalent cationic ions such as Cu(2+), Zn(2+), Mg(2+), and Mn(2+), implying that Ca(2+) is critical factor for the activation of the protease. The 80 kDa protease was optimally active at pH 7.5. Its gelatinolytic activity was maximal at 37 degrees C, and significant level of enzyme activity of the protease remained after heat treatment at 56 degrees C for 30 min or 100 degrees C for 10 min. This thermostable enzyme was strongly inhibited by metal chelators, i.e., EDTA, EGTA, and 1,10- phenanthroline. Thus, the 80 kDa protease in the ESP secreted by T. gondii was classified as a calcium dependent neutral metalloprotease.     

Characterisation of recombinant epithiospecifier protein and its over-expression in Arabidopsis thaliana

Epithiospecifier protein (ESP) is a protein that catalyses formation of epithionitriles during glucosinolate hydrolysis. In vitro assays with a recombinant ESP showed that the formation of epithionitriles from alkenylglucosinolates is ESP and ferrous ion dependent. Nitrile formation in vitro however does not require ESP but only the presence of Fe(II) and myrosinase. Ectopic expression of ESP in Arabidopsis thaliana Col-5 under control of the strong viral CaMV 35S promoter altered the glucosinolate product profile from isothiocyanates towards the corresponding nitriles.     

Assembly and characterisation of a multi-component cytoskeletal gel from adrenal medulla

Incubation of bovine adrenal medullary cytoplasmic extracts results in the formation of three-dimensional supramolecular gels. Ultrastructurally, the gels display a network of fibres similar in appearance to the cytoskeleton within intact chromaffin cells. Analysis of the protein composition using both electrophoretic and immunoblotting techniques indicates that the gels are composed exclusively of cytoskeletal elements; microfilaments, microtubules and intermediate filament proteins have been identified as having a number of actin-associated proteins. Among the latter class of components the following polypeptides have been identified: filamin (300 kDa), fodrin (240 kDa), a 235 kDa polypeptide, myosin (200 kDa), caldesmon (70 kDa) and tropomyosins (39 kDa). All of these polypeptides co-sedimented with F-actin when gels were assembled in the absence of Ca2+. When gelation was performed in the presence of 10 microM Ca2+ actin, the 235 kDa polypeptide, 70 kDa caldesmon and tropomyosin were all absent from the gels. These results may suggest that the 235 kDa polypeptide, 70 kDa caldesmon and tropomyosins could act either individually or as a functional regulatory unit in controlling the Ca2+-activated reorganisation of the actin network in the cytoplasmic gels.     

Nitrate-induced polypeptides in membranes from corn seedling roots

The polypeptide composition of the membranes from corn (Zeamays L.) seedling roots upon nitrate induction was determinedby two-dimensional gel electrophoresis and silver-staining.The synthesis of five polypeptides (49, 48, 35, 33, and 32 kDa)in the tono-plast fraction and four polypeptides (50, 49, 38,and 33 kDa) in the plasma membrane fraction was induced by both2.5 mM Ca(NO₃)₂ and 5 mM KNO₃. Extensive washing of the membraneswith salt and NaOH demonstrated that three induced polypeptides(49, 48, and 35 kDa) in the tonoplast fraction and two inducedpolypeptides (49 and 33 kDa) in the plasma membrane fractionwere integral proteins. After incubation of seedlings in N-freemedium for 4 d, the 49 and 32 kDa polypeptides in the tonoplastfraction had disappeared. By the sixth day in N-free medium,the 35 kDa polypeptide had disappeared from the tonoplast fraction.The 50 kDa polypeptide of the plasma membrane fraction was nolonger detectable in seedlings incubated for 6 d in N-free medium.The size of the spots corresponding to the 33 kDa polypeptidesof both membrane fractions and to the 49 kDa polypeptide ofthe plasma membrane fraction was reduced following incubationof seedlings in N-free medium. The changes in nitrate-inducedpolypeptides in both membrane fractions following transfer toN-free medium correlated with a reduced capacity to take upnitrate in the treated seedlings. The results support the conclusionthat the nitrate-induced polypeptides may be involved in nitratetransport across the tonoplast and plasma membrane. Key words: Nitrate transport, induction, membrane peptides     

Proteoglycans from human umbilical vein endothelial cells

Human umbilical vein endothelial cells were incubated with [35S]sulphate and investigated for their proteoglycan production. By gel chromatography, ion-exchange chromatography and CsCl density-gradient centrifugation we obtained preparative amounts of the endothelial proteoheparan sulphate HSI and of proteochondroitin sulphate from the conditioned medium of mass-cultured human umbilical vein endothelial cells. Approximately 90% of the 35S-labeled material in the endothelial cell conditioned medium was proteochondroitin sulphate. This molecule, with a molecular mass of 180-200 kDa, contains four side-chains of 35-40 kDa and a core protein of 35-40 kDa. Two proteoheparan sulphate forms (HSI and HSII) from the conditioned medium were distinguished by molecular mass and transport kinetics from the cell layer to the medium in pulse-chase experiments. One major form (HSI), with an approximate molecular mass of 160-200 kDa a core protein of 55-60 kDa and three to four polysaccharide side-chains of 35 kDa each, was found enriched in the cellular membrane pellet. Another proteoheparan sulphate (HSII), with polysaccharide moieties of 20 kDa, is enriched in the subendothelial matrix (substratum).     

Purification of CMP-N-acetylneuraminic acid synthetase from bovine anterior pituitary glands

CMP-beta-N-acetylneuraminic acid (CMP-neuNAc) is the substrate for the sialylation of glycoconjugates by sialyltransferases in microbes and higher eukaryotes. CMP-neuNAc synthetase catalyzes the formation of this substrate, CMP-neuNAc, from CTP and neuNAc. In this report we describe the purification of CMP-neuNAc synthetase from bovine anterior pituitary glands. The enzyme was purified by ion exchange, gel filtration, and affinity chromatography. The protein was homogeneous on SDS-PAGE with a molecular weight of 52 kDa, a subunit size similar to that of the E.coli K1 (48.6 kDa). The identity of the 52 kDa protein band was confirmed by native gel electrophoresis in that the position of the enzyme activity in gel slices coincided with the position of major bands in the stained gel. Photoaffinity labeling with 125I-ASA-CDP ethanolamine resulted in the modification of a 52 kDa polypeptide that was partially protected against modification by the substrate CTP. Enzyme activity in crude fractions could be adsorbed onto an immunoadsorbent prepared from antibody against the purified 52 kDa protein. Taken together these data suggest that the 52 kDa polypeptide purified by this procedure described in this report is indeed CMP-neuNAc synthetase. The active enzyme chromatographed on a gel filtration column at 158 kDa suggesting it exists in its native form as an oligomer.     

Gnathostoma binucleatum: excretion-secretion antigen analysis obtained from advanced third-stage larvae in in vitro culture

The paper describes an introductory characterization of antigenic stimulation of excretion-secretion products (ESP) of Gnathostoma binucleatum advanced third-stage larvae cultured in vitro and proteinases present in this products. Excretory and secretory proteins were obtained after 10 larvae were maintained in 5% CO(2) RPMI medium. The supernatant was collected each week for two months. The proteins were dialyzed, concentrated, and separated in 10% SDS-PAGE gels under reducing conditions and transferred to nitrocellulose paper for immunoblot analyses. G. binucleatum immunized mice serum was used to determine protein antigenicity. Four proteins of 40, 80, 120, and 208 kDa persisted for two months and three proteins, 80, 120, and 208 kDa were recognized for antibodies of mice. In SDS-PAGE gelatin substrate gels ESP resolved as two proteins with molecular weight of 80 and 208 kDa that were sensitive to a metalloproteinase inhibitor, and thus it may be inferred that they might be used for diagnosis of gnathostomiasis.     

Biosynthesis of the sulfatide/GM1 activator protein (SAP-1) in control and mutant cultured skin fibroblasts

Sphingolipid activator proteins (SAP) are relatively low-molecular-mass proteins that stimulate the hydrolysis of specific sphingolipids by the required lysosomal enzymes. SAP-1 or sulfatide/GM1 ganglioside activator protein has previously been demonstrated to stimulate the enzymatic hydrolysis of sulfatide, GM1 ganglioside and globotriaosylceramide. Using monospecific rabbit antibodies against human liver sulfatide/GM1 activator, the biosynthesis and processing of this activator were studied in cultured skin fibroblasts from controls and patients with GM1 gangliosidosis and a variant form of metachromatic leukodystrophy. When [35S]methionine was presented in the medium to control human fibroblasts for 4 h, the majority of the immunoprecipitable radiolabeling was confined to bands within three regions of apparent molecular mass 65-70, 35-52 and 8-13 kDa. The only immunoprecipitable radiolabeled species excreted into the medium when NH4Cl was present had an apparent molecular mass of 70 kDa. When the excretion products were given to fresh cells followed by incubation for up to 24 h there was production of the mature species. Treatment of the 70 kDa form with endoglycosidase F resulted in production of a 53 kDa molecular mass form. Pulse-chase experiments indicated that the initial immunoprecipitable translation product was 65 kDa which increased to 70 kDa over the next hour. The 65 kDa species must result from co-translational glycosylation of the polypeptide chain. Apparently, intralysosomal processing converts the 13 kDa form to the 8-11 kDa species. The cells from the patient with GM1 gangliosidosis could not process to the smallest species found in controls due to the deficiency of acid beta-galactosidase. Patients who have a variant form of metachromatic leukodystrophy do not make any immunoprecipitable radiolabeled products in the cells or in the media. This indicates a severe mutation in the gene coding for this activator protein. The production of such small mature species from a relatively large precursor form may regulate the production of this interesting protein.