Purification,partial characterization,and subcellular localization of a 38 kilodalton,calcium-regulated protein of Rhizobium fredii USDA208

Calcium is essential for the growth of rhizobia and the formation of nitrogen-fixing root-nodules on legumes, but its precise role in these processes remains unknown. We have found that Rhizobium fredii USDA208 accumulates a major 38 kDa protein when grown in media supplemented with 0.3–2 mM CaCl₂. We have purified this protein and raised polyclonal antibodies against it. The protein initially is synthesized as a 40 kDa precursor which subsequently undergoes calcium-dependent processing to give rise to the mature polypeptide. Subcellular and immunocytochemical localization studies indicate that the 38 kDa protein accumulates preferentially in the periplasmic space. Its N-terminal sequence, AETIKIGVAGPMTG, shows significant homology to the N-termini of amino acid binding proteins from the periplasm, including leucine-, isoleucine-, and valine-specific binding proteins of Pseudomonas aeruginosa and Escherichia coli and a leucine-specific binding protein of E. coli. The R. fredii protein does not, however, bind [³H]-leucine. The 38 kDa protein is encoded by the bacterial chromosome. It is absent in several rhizobia other than R. fredii, but antigenically related polypeptides are present in Escherichia coli and Erwinia carotovora subsp. carotovora.     

An Electrophoretic Analysis of the Seed Protein Body Proteins from Pinus Nigra

Protein bodies (PBs) of European black pine (Pinus nigra Arn.) were isolated from mature seeds. Extracted soluble matrix proteins and crystalloid proteins PBs proteins were investigated by SDS-PAGE electrophoresis in presence and absence of 2-mercaptoethanol. The proteins of molecular masses 16, 17, 18, 61 and 65 kDa were presented only in crystalloid protein samples. Only 15 kDa protein was present in soluble matrix proteins and not in crystalloid proteins. Another protein bands were present in both soluble matrix and crystalloid proteins. 20, 37, 38, 39 and 48 kDa proteins were strongly visible among crystalloid proteins. Bands of 23 and 32 kDa were more visible in soluble matrix protein samples. Different composition in crystalloid proteins was found in absence of 2-mercaptoethanol: no proteins with molecular mass 71 kDa and more proteins in soluble matrix. In case of crystalloid proteins we detected 7 protein bands in interval from 71 to 212 kDa.     

Recombinant outer membrane protein A (OmpA) of Edwardsiella tarda, a potential vaccine candidate for fish, common carp

Outer membrane protein A (OmpA) is a component of the outer membrane of Edwardsiella tarda and is wildly distributed in Enterobacteriaceae family. The gene encoding the OmpA protein was cloned from E. tarda and expressed in Escherichia coli M15 cells. The recombinant OmpA protein containing His₆ residues was estimated to have a molecular weight of ∼38 kDa. In Western blot the native protein showed expression at ∼36 kDa molecular weight which was within the range of major outer membrane proteins (36–44 kDa) observed in this study. All E. tarda isolates tested harbored the ompA gene and the antibody raised to this protein was seen to cross react with other Gram negative bacteria. The OmpA protein characterized in this study was observed to be highly immunogenic in both rabbit and fish. In Enzyme linked immunosorbent assay, rabbit antisera showed an antibody titer of 1: 128,000. Common carp vaccinated with recombinant OmpA protein elicited high antibody production and immunized fish showed a relative percentage survival of 54.3 on challenge.     

Storage protein dynamics in zygotic and somatic embryos of white fir

Composition and accumulation patterns of storage proteins in female gametophyte and embryos of the white fir (Abies concolor) were investigated during embryogenesis and germination of mature seeds using SDS-PAGE and immunological approach. Altogether 9 major and minor protein components with molecular masses of 14, 16, 22, 24, 27, 30, 35, 38, and 43 kDa were detected in female gametophytes and 9 protein bands in the embryos with the molecular sizes of 14, 16, 22, 24, 25, 27, 34, 38, and 43 kDa. The species seems to deviate in this respect from other representatives of Pinaceae. A conspicuous increase of storage protein synthesis was observed at the stage of fully cellularized female gametophytes and at the cotyledonary stage of embryo development. There exists a high degree of similarity between storage protein profiles of white fir zygotic and somatic embryos. Successive stages of somatic embryogenesis exhibited a high degree of similarity of storage proteins except for cotyledonary stage when a noticeable increase in storage protein synthesis was registered. Conversely, during germination of somatic embryos, an overwhelming majority of storage proteins was depleted.     

Characterization and Localization of a Novel Protein (HFN 40) in Maize Genotypes Without Husk Leaf Blades

Some maize (Zea mays L.) genotypes produced husk leaves without leaf blades. However, the physiological implication of this leaf deformity is unclear. Difference in protein pattern was observed between maize with and without husk leaf blades. A clear band around 38[sim ]40 kDa in seeds of maize genotypes without husk leaf blades appeared, while it was not detected in ones with husk leaf blades. These protein might be involved in leaf blade intiation.     

Ligand-binding properties of the glutathione-binding protein of the mussel, Mytilus edulis

The glutathione-binding protein of Mytilus edulis possesses only one tryptophan per polypeptide. Quenching of intrinsic fluorescence due to this residue was studied in the presence of glutathione S-transferase ligands; hematin, bilirubin, biliverdin, bromosulphophthalein, 1-anilino-8-naphthalene sulphonate, 1,2-dichloro-4-nitrobenzene, ethacrynic acid and sodium deoxycholate as well as in the presence of triethyltin bromide. K_d values were estimated from these experiments and were found to be 38–310 μM. Based on non-denaturing electrophoresis, the protein was found to have a native molecular weight of 50 kDa. Taken together with previously reported subunit molecular weights in the region of 25 kDa, this indicates that this protein has a dimeric quaternary structure.     

Characterization of the genes encoding the haemolytic toxin and the mosquitocidal delta-endotoxin of Bacillus thuringiensis israelensis

Summary The crystalline parasporal inclusions (crystals) of Bacillus thuringiensis israelensis (Bti), which are specifically toxic to mosquito and black fly larvae, contain three main polypeptides of 28 kDa, 68 kDa and 130 kDa. The genes encoding the 28 kDa protein and the 130 kDa protein have been cloned from a large plasmid of Bti. Escherichiacoli recombinant clones containing the 130 kDa protein gene were highly active against larvae of Aedes aegypti and Culex pipiens, while B. subtilis recombinant cells containing the 28 kDa protein gene were haemolytic for sheep red blood cells. A fragment of the Bti plasmid which is partially homologous to the 130 kDa protein gene was also isolated; it probably corresponds to part of a second type of mosquitocidal toxin gene. Furthermore, restriction enzyme analysis suggested that the 130 kDa protein gene is located on the same Bti EcoRI fragment as another kind of Bti mosquitocidal protein gene cloned by Thorne et al. (1986). Hybridization experiments conducted with the 28 kDa protein gene and the 230 kDa protein gene showed that these two Bti genes are probably present in the plasmid DNA of B. thuringiensis subsp. morrisoni (PG14), which is also highly active against mosquito larvae.     

Induction,purification and characterisation of acyl-ACP thioesterase from developing seeds of oil seed rape (Brassica napus)

The level of two thioesterases, acyl-CoA thioesterase and acyl-ACP thioesterase was determined during seed maturation in oil seed rape. Both thioesterase activities rose markedly prior to the onset of lipid accumulation, but the induction kinetics suggest that the activities reside on distinct polypeptides. Acyl-ACP thioesterase (EC 3.1.2.14) was purified 2000-fold using a combination of ion exchange, ACP-affinity chromatogr aphy, chromatofocusing and gel filtration. Using native gel electrophoresis, and assays for enzymic activity, two polypeptides were identified on SDS-PAGE as associated with the activity. Cleveland mapping of these polypeptides, of 38 kDa component and 33 kDa respectively, demonstrated that they are related. An antibody was prepared against the 38 kDa component, and this also recognises the 33 kDa polypeptide in highly purified preparations. Western blotting of a crude extract identifies one band at 38 kDa consistent with the 33 kDa component being a degradation product generated during purification. The native molecule has a Mr of 70 kDa indicating a dimeric structure. The enzyme has a pH optimum of 9.5 and shows strong preference for oleoyl-ACP as substrate. The intact enzyme has an N-terminus blocked to protein sequencing. We also found that two other polypeptides co-purify with acyl-ACP thioesterase under native conditions. The N-terminal amino-acid sequence of these polypeptides is shown and their possible identity is discussed.     

Isolation and characterization of a cDNA clone encoding the anti-viral protein from Phytolacca americana

Phytolacca anti-viral protein (PAP) was purified from Phytolacca leaves and the N-terminal was sequenced. A cDNA library was made from mRNAs isolated from Phytolacca leaves and cDNA clones for PAP were identified using oligonucleotide probes derived from the N-terminal amino acid sequence. The PAP-cDNA clone was sequenced from both directions. The predicted amino acid sequence of PAP was compared with the amino acid sequences of other ribosome-inactivating proteins. The identities of these proteins to PAP ranged from 29 to 38%, and a region was found in each with a sequence similar to the PAP sequence (AIQMVSEAARFKYI). Southern blot analysis indicates that PAP is encoded by a multi-gene family.Abbreviations MAP Mirabilis jalapa anti-viral protein - PAP Phytolacca anti-viral protein - SO6 30 kDa ribosome-inactivating protein from the seeds of Saponaria officinalis     

Cloning of theHelicobacter pylori recA gene and functional characterization of its product

The RecA protein is a key enzyme involved in DNA recombination in bacteria. Using a polymerase chain reaction (PCR) amplification we cloned arecA homolog fromHelicobacter pylori. The gene revealed an open reading frame (ORF) encoding a putative protein of 37.6 kDa showing closest homology to theCampylobacter jejuni RecA (75.5% identity). A putative ribosome binding site and a near-consensus σ⁷⁰ promoter sequence was found upstream ofrec A. A second ORF, encoding a putative protein with N-terminal sequence homology to prokaryotic and eukaryotic enolases, is located directly downstream ofrecA. Compared to the wild-type strains, isogenicH. pylori recA deletion mutants of strains 69A and NCTC11637 displayed increased sensitivity to ultraviolet light and abolished general homologous recombination. The recombinantH. pylori RecA protein produced inEscherichia coli strain GC6 (recA ⁻) was 38 kDa in size but inactive in DNA repair, whereas the corresponding protein inH. pylori 69A migrated at the greater apparent molecular weight of approx. 40 kDa in SDS-polyacrylamide gels. However, complementation of theH. pylori mutant using the clonedrecA gene on a shuttle vector resulted in a RecA protein of the original size and fully restored the general functions of the enzyme. These data can be best explained by a modification of RecA inH. pylori which is crucial for its function. The potential modification seems not to occur when the protein is produced inE. coli, giving rise to a smaller but inactive protein.     

Characterization of the photosystem II 32 kDa protein in Synechococcus PCC7942

A rapidly labeled photosynthetic membrane protein was identified in the cyanobacterium Synechococcus PCC7942 R2 as the 32 kDA protein that is involved in electron transport and quinone binding in the photosystem II complex. Partial proteolysis of the membrane-bound protein indicates that the internal architecture and the topology of the Synechococcus 32 kDa protein resembles the analogous protein of higher plants. In addition to the R2 wild-type strain, we characterized three psbA-inactivated Synechococcus strains, in which two of the three endogenous psbA genes were inactivated. In all strains, a 32 kDa protein cross-reacts with an antiserum that was raised against a higher-plant 32 kDa protein and displays in vivo light-dependent turnover. In Synechococcus, the herbicide DCMU inhibits the 32 kDa protein turnover at similar concentration ranges as in higher plants; however, a fraction of the molecules always displays a DCMU-insensitive degradation.     

Cysteine peptidases in the tomato trypanosomatid Phytomonas serpens: influence of growth conditions, similarities with cruzipain and secretion to the extracellular environment

We have characterized the cysteine peptidase production by Phytomonas serpens, a tomato trypanosomatid. The parasites were cultivated in four distinct media, since growth conditions could modulate the synthesis of bioactive molecules. The proteolytic profile has not changed qualitatively regardless the media, showing two peptidases of 38 and 40 kDa; however, few quantitative changes were observed including a drastic reduction (around 70%) on the 40 and 38 kDa peptidase activities when parasites were grown in yeast extract and liver infusion trypticase medium, respectively, in comparison with parasites cultured in Warren medium. The time-span of growth did not significantly alter the protein and peptidase expression. The proteolytic activities were blocked by classical cysteine peptidase inhibitors (E-64, leupeptin, and cystatin), being more active at pH 5.0 and showing complete dependence to reducing agents (dithiothreitol and l-cysteine) for full activity. The cysteine peptidases were able to hydrolyze several proteinaceous substrates, including salivary gland proteins from Oncopeltus fasciatus, suggesting broad substrate utilization. By means of agglutination, fluorescence microscopy, flow cytometry and Western blotting analyses we showed that both cysteine peptidases produced by P. serpens share common epitopes with cruzipain, the major cysteine peptidase of Trypanosoma cruzi. Moreover, our data suggest that the 40 kDa cysteine peptidase was located at the P. serpens cell surface, attached to membrane domains via a glycosylphosphatidylinositol anchor. The 40 kDa peptidase was also detected in the cell-free culture supernatant, in an active form, which suggests secretion of this peptidase to the extracellular environment.     

Specificity of action on mosquito larvae of Bacillus thuringiensis israelensis toxins encoded by two different genes

Summary A 135 kDa protein gene and two open reading frames (ORF1 and ORF2) have been cloned from a large plasmid of Bacillus thuringiensis israelensis (Bourgouin et al. 1986). The Escherichia coli recombinant clones containing these genes were highly toxic to larvae of Aedes aegypti, Anopheles stephensi and Culex pipiens. From subcloning experiments it was deduced that the 135 kDa polypeptide alone was responsible for the toxic activity on both A. aegypti and An. stephensi larvae. In contrast, the presence of two polypeptides, the 135 kDa protein and the ORF1 product was required for toxicity to C. pipiens larvae. The minimal toxic fragment of the 135 kDa polypeptide has been delineated. The results indicate that a polypeptide of about 65 kDa, corresponding to an amino-terminal part of the 135 kDa protein is sufficient for toxicity. Sequence comparisons indicate that the ORF1 product may correspond to an N-terminal part of a rearranged 130 kDa protein.     

Urate-mediated regulation of urate oxidase inChlamydomonas reinhardtii

Summary Expression of uncase (urate oxidase) fromChlamydomonas reinhardtii has been investigated by using specific polyclonal antibodies. By Western blot analyses performed under nondenaturing conditions, a 124 kDa protein band corresponding to active uricase was detected in protein extracts from cells cultured with urate or nitrogen-starved cells. This protein band was absent in cells cultured with ammonium. Besides the 124 kDa band, the antibodies also reacted with a massive protein band, with an apparent molecular mass of 500 kDa, that was detected in all nutritional conditions assayed. In vitro, inactive uricase from cells grown with ammonium was activated by incubation in presence of urate. The appearance of uricase activity in vitro coincided with a decrease of the 500 kDa protein and an increase of the 124 kDa band corresponding to the active enzyme. We suggest that a posttranslational regulation of uricase synthesis takes place inC. reinhardtii, and that urate may be responsible for the assembly or maturation of inactive precursors to form the active uricase.     

Differential reactivity of filarial antigens with human sera from bancroftian filariasis endemic zone

The reacting pattern of circulating filarial antigen fraction-2 fromWuchereria bancrofti and soluble antigen from adultBrugia malayi with bancroftian filarial sera were analysed by immunoblotting technique and enzyme linked immunosorbent assay. Microfilaraemic sera reacted specifically with proteins of molecular weight 200, 120, 97, 56, 54, 43, 26 and 17 kDa of circulating Filarial antigen fraction-2 and 44, 40, 38, 31, 22 and 18 kDa ofBrugia malayi adult soluble antigen. Clinical filarial sera identified protein molecules of 56, 54 and 42 kDa of circulating filarial antigen fraction-2 and 19, 16 and 14 kDa ofBrugia malayi adult soluble antigen. Some components of both the antigen preparation were also identified by endemic normal serai.e.proteins 120, 97, 62, 43 and 33 kDa of circulating filarial antigen fraction-2 and 170, 120, 43, 31 and 12 kDa ofBrugia malayi adult soluble antigen. One of the sodium dodecyl sulphate-polyacrylamide gel electropherosis fractions of circulating filarial antigen fraction-2 (CFA₂-8) andBrugia malayi adult soluble antigen fraction-6 when used in enzyme linked immunosorbent assay could differentiate microfilaraemic sera from endemic normal and clinical filarial sera. The other antigen fractions (CFA₂-2, 6 and 7 andBmA-2) showed a high geometric mean titre of filarial immunoglobulin G antibodies in endemic normal sera when compared to microfilaraemia and clinical filarial sera. These proteins need to be further studied to assess their involvement in protecting from filarial infection in an endemic area.     

Monoclonal antibody affinity purification of a 78 kDa membrane protein of Leishmania donovani of Indian origin and its role in host-parasite interaction

Monoclonal antibodies were raised against pathogenic promastigotes ofLeishmania donovani of Indian origin. Among these, one was used for immuno-affinity purification of a 78 kDa membrane protein present in both the amastigote and promastigote forms of the parasite. Results of immunoblot experiments with the anti-78 kDa antibody revealed that the protein was present only in parasites belonging to theL. donovani complex. The expression of the protein was observed to be the same during different phases of growth of the promastigotes. Therefore, the 78 kDa protein is neither stage-specific nor differentially regulated. Surface iodination and subcellular fractionation of the promastigotes indicated that the protein was localized on the cell surface. The 78 kDa protein was found to inhibit the binding of promastigotes to macrophages significantly, suggesting that it may play a role in the process of infection. Thus, here we report the purification of a surface protein ofL. donovani of Indian origin, which may play an important role in the process of infection.     

Accumulation and protection activity of protease-resistant heat-stable proteins in Haematococcus pluvialis during high light and nitrogen starvation

Under stress conditions of high light andnitrogen starvation the green motile cellsof the unicellular green algaHaematococcus pluvialis are known tocease growing and transform into inert redcysts, in which the secondary carotenoidastaxanthin accumulates. A study wastherefore made on other effects of suchconditions. A number ofprotease-resistant, heat-stable proteinswith apparent molecular masses of 38 kDa,50 kDa, 62 kDa and 63 kDa accumulated. Thisprotein fraction was effective in theprotection of horseradish peroxidase frominactivation, suggesting a role for theseproteins in H. pluvialis subjected toa stress event.     

A 38 kDa precursor protein of aqualysin I (a thermophilic subtilisin-type protease) with a C-terminal extended sequence: its purification and in vitro processing

The precursor of aqualysin I, an extracellular subtilisin-type protease produced by Thermus aquaticus, consists of four domains: an N-terminal signal peptide, an N-terminal pro-sequence, a protease domain, and a C-terminal extended sequence. In an Escherichia coli expression system for the aqualysin I gene, a 38 kDa precursor protein consisting of the protease domain and the C-terminal extended sequence is accumulated in the membrane fraction and processed to a 28 kDa mature enzyme upon heat treatment at 65°C. The 38 kDa precursor protein is separated as a soluble form from denatured E. coli proteins after heat treatment. Accordingly, purification of the 38 kDa proaqualysin I was performed using chromatography. The purified precursor protein gave a single band on SDS-polyacrylamide gels. The precursor protein exhibited proteolytic activity comparable to that of the mature enzyme. The purified precursor protein was processed to the mature enzyme upon heat treatment. The processing was inhibited by diisopropyl fluorophosphate. The processing rate increased upon either the addition of mature aqualysin I or upon an increase in the concentration of the precursor, suggesting that the cleavage of the C-terminal extended sequence occurs through an intermolecular self-processing mechanism.     

Structure and expression of the gene encoding ribosomal protein S1 from the cyanobacterium Synechococcus sp. strain PCC 6301: striking sequence similarity to the chloroplast ribosomal protein CS1

We isolated a 38 kDa ssDNA-binding protein from the unicellular cyanobacterium Synechococcus sp. strain PCC 6301 and determined its N-terminal amino acid sequence. A genomic clone encoding the 38 kDa protein was isolated by using a degenerate oligonucleotide probe based on the amino acid sequence. The nucleotide sequence and predicted amino acid sequence revealed that the 38 kDa protein is 306 amino acids long and homologous to the nuclear-encoded 370 amino acid chloroplast ribosomal protein CS1 of spinach (48% identity), therefore identifying it as ribosomal protein (r-protein) S1. Cyanobacterial and chloroplast S1 proteins differ in size from Escherichia coli r-protein S1 (557 amino acids). This provides an additional evidence that cyanobacteria are closely related to chloroplasts. The Synechococcus gene rps1 encoding S1 is located 1.1 kb downstream from psbB, which encodes the photosystem 11 P680 chlorophyll a apoprotein. An open reading frame encoding a potential protein of 168 amino acids is present between psbB and rps1 and its deduced amino acid sequence is similar to that of E. coli hypothetical 17.2 kDa protein. Northern blot analysis showed that rps1 is transcribed as a monocistronic mRNA.     

Genetic analysis of the accumulation of COR14 proteins in wild (Hordeum spontaneum) and cultivated (Hordeum vulgare) barley

The cold-regulated (COR14) protein of 14 kDa is a polypeptide accumulated under low-temperature conditions in the chloroplasts of barley leaves. In H. vulgare the COR14 antibody cross-reacts with two proteins, with a slightly different relative molecular weight around the marker of 14.4 kDa, referred to as COR14a and COR14b (high and low relative molecular weight, respectively). In a collection of H. spontaneum genotypes a clear polymorphism was found for the corresponding COR proteins. While some accessions showed the same COR pattern as cultivated barley, in 38 out of 61 accessions examined the COR14 antibody cross-reacted with an additional coldregulated protein with a relative molecular weight of about 24 kDa (COR24). The accumulation of COR24 was often associated with the absence of COR14b; the relationship between the COR14b/COR24 polymorphism and the adaptation of H. spontaneum to different environments is discussed. By studying COR14 accumulation in cultivated barley we have found that the threshold induction-temperature of COR14a is associated with the loci controlling winter hardiness. This association was demonstrated by using either a set of 30 cultivars of different origin, or two sets of frost-tolerant and frost-sensitive F1 doubled-haploid lines derived from the cross Dicktoo (winter type) x Morex (spring type). These results suggest that the threshold induction-temperature of COR14a can be a potential biochemical marker for the identification of superior frostresistant barley genotypes.