Soluble Chloroplast Enzyme Cleaves preLHCP Made in Escherichia coli to a Mature Form Lacking a Basic N-Terminal Domain

We have investigated the specificity of a chloroplast soluble processing enzyme that cleaves the precursor of the major light-harvesting chlorophyll a/b binding protein (LHCP). The precursor of LHCP (preLHCP) was synthesized in Escherichia coli and recovered from inclusion-like bodies. It was found to be a substrate for proteolytic cleavage by the soluble enzyme in an organelle-free reaction, yielding a 25 kilodalton peptide. This peptide co-migrated during sodium dodecyl sulfate-polyacrylamide gel electrophoresis with the smaller of the forms (25 and 26 kilodalton) produced when either the E. coli-synthesized precursor, or preLHCP made in a reticulocyte lysate, was imported into chloroplasts. N-Terminal sequence analysis of the E. coli-generated precursor showed that it lacked an N-terminal methionine. N-Terminal sequencing of the 25 kilodalton peptide produced in the organelle-free reaction indicated that processing occurred between residues 40 and 41, removing a basic domain (RKTAAK) thought to be at the N-terminus of all LHCP molecules of type I associated with photosystem II. To determine if the soluble enzyme involved also cleaves other precursor polypeptides, or is specific to preLHCP, it was partially purified, and the precursors for Rubisco small subunit, plastocyanin, Rubisco activase, heat shock protein 21, and acyl carrier protein were tested as substrates. All of these precursors were cleaved by the same chromatographic peak of activity that processes preLHCP in the organelle-free reaction.     

Import of proteins into chloroplasts. Membrane integration of a thylakoid precursor protein reconstituted in chloroplast lysates

Many of the thylakoid membrane proteins of plant and algal chloroplasts are synthesized in the cytosol as soluble, higher molecular weight precursors. These precursors are post-translationally imported into chloroplasts, incorporated into the thylakoids, and proteolytically processed to mature size. In the present study, the process by which precursors are incorporated into thylakoids was reconstituted in chloroplast lysates using the precursor to the light-harvesting chlorophyll a/b protein (preLHCP) as a model. PreLHCP inserted into thylakoid membranes, but not envelope membranes, if ATP was present in the reaction mixture. Correct integration into the bilayer was verified by previously documented criteria. Integration could also be reconstituted with purified thylakoid membranes if reaction mixtures were supplemented with a soluble extract of chloroplasts. Several other thylakoid precursor proteins in addition to preLHCP, but no stromal precursor proteins, were incorporated into thylakoids under the described assay conditions. These results suggest that the observed in vitro activity represents in vivo events during the biogenesis of thylakoid proteins.     

Precursor for the light-harvesting chlorophyll a/b-binding protein synthesized in Escherichia coli blocks import of the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase.

When synthesized in Escherichia coli, the light-harvesting chlorophyll a/b-binding protein (LHCP) precursor accumulates in inclusion-like bodies (Abad, M. S., Oblong, J. E., and Lamppa, G. K. (1991) Plant Physiol. 96, 1220-1227). In this study we show that after solubilization in 6 M urea and dialysis into 20 mM Tris-HCl (pH 8.0) the recombinant LHCP precursor (preLHCP) was not found as a monomer (31 kDa), but instead produced a heterogeneous population of oligomeric complexes, ranging from 60-300 kDa as determined by gel filtration chromatography. Circular dichroism analysis indicated that the oligomers had folded structure, and that it was composed of both alpha-helix and beta-sheet. Approximately half of recombinant preLHCP found in these complexes was cleavable at the transit peptide-mature protein junction by a soluble chloroplast-processing enzyme in an organelle-free reaction. At 1.5 microM the recombinant precursor inhibited the import of radiolabeled preLHCP and the precursor of the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase generated by reticulocyte lysate translations. When chloroplasts were preincubated with the precursor, followed by their reisolation, import was still blocked, providing evidence that competition between recombinant preLHCP and these substrates occurred at the chloroplast per se. Recombinant preLHCP was visualized on the envelope by immunofluorescence microscopy, and its presence there was mediated by a thermolysin-sensitive factor.     

Transport of methotrexate in Chinese hamster ovary cells: a mutant defective in methotrexate uptake and cell binding

A regulatory role for cytoplasmically derived proteins in chloroplast translation in organello was examined by analyzing protein synthesis in plastids isolated from cells of Euglena gracilis which had been treated with cycloheximide (CHI). Incorporation of [35S]methionine by chloroplasts from CHI-inhibited Euglena was reduced approximately 40 and 90% by exposure of the cells to the antibiotic for 2 and 4 h, respectively. The chloroplast translation products were then analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography. The synthesis of polypeptides in the soluble compartment of the plastid was substantially diminished by as little as 15 min of CHI pretreatment. No qualitative alterations of the polypeptide pattern were detected. Qualitative changes were seen in the thylakoid fraction, however. Comparison of the stainable polypeptides and fluorographs of thylakoid membranes from CHI-treated cells with those of controls showed several instances in which the more slowly migrating member of a doublet accumulated with a concomitant depletion of a more rapidly migrating component. A pair of polypeptides at 28 and 30 kDa, which we believe are the Euglena homologs of the photogene product and its precursor, respectively, are representative of this phenomenon. Additionally, thylakoids from cells pretreated with CHI sometimes synthesized novel polypeptides larger than 65 kDa. Finally, when intact chloroplasts from CHI-inhibited Euglena were incubated with a postchloroplast supernatant from normal cells, there was a partial reversion of the anomalies seen in the fluorographs. These data are interpreted to indicate the cytoplasmic origin of one or more proteins whose function is to process chloroplast translation products.     

Disruption of chloroplast biogenesis and plant development upon down-regulation of a chloroplast processing enzyme involved in the import pathway

Typically, nuclear-encoded chloroplast proteins are synthesized as precursors and require proteolytic processing upon import before their assembly into functional complexes within the organelle. A cDNA encoding a chloroplast processing enzyme (CPE), which was originally identified as a protease that cleaves the precursor for the major light-harvesting chlorophyll binding protein (preLHCP), was introduced into the tobacco genome in an antisense orientation to investigate the role of the enzyme in vivo . The presence of the antisense-CPE gene resulted in chlorotic leaves, and retarded shoot and root growth. The introduction of the antisense-CPE gene disrupted the normal pattern of plastid division. Chloroplast numbers in cotyledon and first leaf cells were reduced 25% compared to the control plants. Chloroplasts contained fewer thylakoids and large starch grains, the latter an indication of a change in carbon flux. CPE levels and activity were significantly lower in stromal extracts in the transgenic plants. Interestingly, in vitro import of precursor proteins was defective. Most of the preLHCP remained on the exterior of the organelle, and only a small fraction of preRBCA was imported, suggesting that a change in CPE levels can influence translocation across the envelope. Our in vivo results support the conclusion that CPE plays a critical role during chloroplast biogenesis, and that the pleiotropic effects of CPE down-regulation reflect its function as a general stromal processing peptidase as part of the import machinery. Furthermore, these findings indicate the importance of regulating the expression of components of the import machinery for normal plant development.     

Turnover of thylakoid photosystem II proteins during photoinhibition of Chlamydomonas reinhardtii

The turnover of photosystem-II proteins during photoinhibition was analyzed in the green alga Chlamydomonas reinhardtii. Changes in the amount of photosystem II core complex polypeptides D1, D2, 44 kDa and 51 kDa, the antennae-CP-29 and light-harvesting-complex-II polypeptides and the water-oxidizing complex polypeptides of 30 kDa, 23 kDa and 16 kDa were monitored by a variety of techniques. Only the D1 and D2 polypeptides were found to turnover during photoinhibition when cells were exposed to ten fold photosynthesis-saturating light (2500 W/m2 for 90 min) at 25 degrees C. While 80% of photosystem-II activity was lost, a reduction of only 20% was observed in the total amount of D1 and D2 proteins. However, inhibition of chloroplast translation by chloramphenicol during photoinhibition resulted in the loss of about 60% of the D1 and 40% of the D2 proteins, as demonstrated by Western blotting and dot blotting of isolated thylakoids, quantitative analysis of immunogold-labeled whole-cell thin sections, and chase of radioactively prelabelled proteins during photoinhibition. We propose that the light-dependent turnover of the D1 protein is a protective mechanism against photoinhibition as far as the removal and replacement of D1 is compatible with the photoinactivation incurred by photosystem II. At light intensities at which the rate of D1 removal becomes limiting, loss of photosystem-II activity exceeds the turnover of D1 and the stability of the D2 protein is impaired as well.     

Is E37, a major polypeptide of the inner membrane from plastid envelope,an S-adenosyl methionine-dependent methyltransferase?

Using antibodies raised against E37, one of the major polypeptides of the inner membrane from the chloroplast envelope, it has been demonstrated that a single immunologically related polypeptide was present in total protein extracts from various higher plants (monocots and dicots), in photosynthetic and non-photosynthetic tissues from young spinach plantlets, as well as in the cytoplasmic membrane from the cyanobacteria Synechococcus . This ubiquitous distribution of E37 strongly suggests that this protein plays an envelope-specific function common to all types of plastids. Comparison of tobacco and spinach E37 amino acid sequences deduced from the corresponding cDNA demonstrates that consensus motifs for S-adenosyl methionine-dependent methyltransferases are located in both sequences. This hypothesis was confirmed using a biochemical approach. It was demonstrated that E37, together with two minor spinach chloroplast envelope polypeptides of 32 and 39 kDa, can be specifically photolabeled with [³H]-S-adenosyl methionine upon UV-irradiation. Identification of E37 as a photolabeled polypeptide was established by immunoprecipitation. Furthermore, photolabeling of the three envelope polypeptides was specifically inhibited by very low concentration of S-adenosyl homocysteine, thus providing evidence for the presence within these proteins of S-adenosyl methionine- and S-adenosyl homocysteine-binding sites that were closely associated. Taken as a whole these results strongly suggest that E37 is an ubiquitous plastid envelope protein that probably has an S-adenosyl methionine-dependent methyltransferase activity. The 32 and 39 kDa envelope polypeptides probably have a similar methyltransferase activity.     

水鳖叶片对不同浓度Pb2+胁迫的生理和结构响应

研究了不同浓度Pb~(2+)胁迫(0、10、20、30和50 mg·L~(-1))对水鳖叶绿素含量、可溶性蛋白含量、抗氧化系统、活性氧产生速率和细胞超微结构的影响。结果表明:随着Pb~(2+)浓度的增加,水鳖叶片总叶绿素、叶绿素a/b值、可溶性蛋白含量和CAT活性逐渐下降;SOD、POD、APX、GR活性、抗坏血酸(AsA)和谷胱甘肽(GSH)含量先升后降;O_2~-·产生速率、H_2O_2、丙二醛(MDA)和可溶性糖含量呈上升趋势;不连续聚丙烯酰胺凝胶电泳(SDS-PAGE)显示,Pb~(2+)处理后,分子量为1 6.3kDa、55.0kDa的多肽含量减少,高浓度处理下分子量为23.1kDa、75.8kDa、94.0kDa的多肽条带消失;电镜观察发现,Pb~(2+)对水鳖叶片细胞的叶绿体、线粒体和细胞核造成严重损伤。Pb~(2+)破坏了水鳖正常代谢所需的生理和结构基础,打乱了代谢平衡,最终导致植物的衰亡。     

76 and 14 kDa polypeptides, two major components released from amphibian urinary bladder epithelium. Purification and characterization

Exocytotic processes play a major role in the hormonal control of water permeability in the amphibian urinary bladder. Different treatments such as antidiuretic hormone (ADH) stimulation, incubation with phorbol ester or mild detergent and mechanical stretch of the bladder, consistently induce a liberation of two major polypeptides of 76 and 14 kDa molecular mass into the luminal medium. Each of these polypeptides represents 3 to 5% of the total protein of epithelial cell homogenates and 20 to 50% of the released material. Proportions of released 76 kDa polypeptide in urinary bladders of toads (Bufo marinus) and frogs (Rana esculenta) were similar but, in the frog extracts, two bands ("doublet") were resolved at the level of 76 kDa. In high performance liquid chromatography (HPLC), using gel filtration and ion exchange chromatography, the frog 76 kDa protein was resolved into two polypeptides of 80,000 to 100,000 and 60,000 to 80,000 daltons while the 14 kDa protein included two polypeptides, each with a molecular mass of approximately 14,000 daltons. Isoelectric focusing of the material released during a mechanical stretch of the tissue ("stretch extract") or of isolated purified proteins from the frog urinary bladder showed that the 14 kDa polypeptides were resolved in two major groups of polypeptides, one in the range of pH 7.4 to 7.8, the other at pH 5.6. The lower band of the 76 kDa doublet also comprised some diffuse bands (5.0 less than pI less than 5.2) while the other polypeptide of the doublet presented a sharp band at pH 6.2.(ABSTRACT TRUNCATED AT 250 WORDS)     

Protein-DNA interaction within one cloned chloroplast DNA replication origin of Chlamydomonas

Summary A partially purified algal protein mixture which supports in vitro DNA replication consists of soluble proteins and proteins extracted from thylakoid membrane. The membrane extract is essential for the specific initiation of replication at a displacement loop (D-loop) site previously mapped by electron microscopy. D-loop site and its flanking sequences have been cloned and sequenced. In this study, fragment-retention assays using various subclones of the sequenced region indicate that some proteins in the membrane extract bind strongly and specifically with a 494 bp restriction fragment which partially overlaps the D-loop site. Protein gel analyses of the protein-DNA complex identify three DNA-binding polypeptides with apparent molecular weights of 18, 24 and 26 kDa, respectively. Treatment with chloramphenicol, an inhibitor of chloroplast protein synthesis, for 1 h has no obvious effect on the contents of the 24 or 26 kDa polypeptides but significantly reduces the content of the 18 kDa polypeptide in the membrane extract.     

The 68 kDa DNA compacting nucleoid protein from soybean chloroplasts inhibits DNA synthesis in vitro

Nucleoids were purified from chloroplasts of dividing soybean cells and their polypeptide composition analyzed by SDS-polyacrylamide gel electrophoresis. Of the 15–20 nucleoid-associated polypeptides, several demonstrated DNA binding activity. Upon disruption of the nucleoids with high concentrations of NaCl, a subset of these proteins and the majority of chloroplast DNA were recovered in the supernatant after centrifugation. Removal of the salt by dialysis resulted in formation of nucleoprotein complexes resembling genuine nucleoids. Purification of these structures revealed three major proteins of 68, 35 and 18 kDa. After purification of the 68 kDa protein to homogeneity, this protein was able to compact purified chloroplast DNA into a nucleoid-like structure in a protein concentration-dependent fashion. Addition of the 68 kDa protein to an in vitro chloroplast DNA replication system resulted in complete inhibition of nucleotide incorporation at concentrations above 300 ng of 68 kDa protein per g of template DNA. These results led to in situ immunofluorescence studies of chloroplasts replicating DNA which suggested that newly synthesized DNA is not co-localized with nucleoids. Presumably, either the plastid replication machinery has means of removing nucleoid proteins prior to replication or the concentration of nucleoid proteins is tightly regulated and the proteins turned over in order to allow replication to proceed.     

Postnatal Age and Protein Tyrosine Phosphorylation at Synapses in the Developing Rat Brain

The relationship between postnatal age and protein tyrosine kinase activity in synaptosomes prepared from the rat forebrain was studied. Synaptosomal particulate and soluble fractions, as well as total homogenates, the cell soluble fraction, and P3, were prepared from rats ranging in postnatal age from 5 to 60 days and analyzed for (a) tyrosine kinase activity using polyglutamyltyrosine (4:1) as the substrate, (b) the presence of endogenous substrates for tyrosine phosphorylation using polyclonal antibodies specific for phosphotyrosine, and (c) levels of pp60src. Enzyme activity, expressed per milligram of protein, in the total homogenate, P3, and both the cell and synaptosomal soluble fractions was highest in the brains of young animals (postnatal days 5-10) and decreased thereafter to adult levels. In contrast, tyrosine kinase activity in the synaptosomal particulate fraction exhibited a unique biphasic developmental profile, increasing to maxima at postnatal days 10 and 20 before decreasing to adult values. Endogenous substrates for tyrosine phosphorylation were identified by incubating subcellular fractions with 2 mM ATP in the presence of sodium orthovanadate and probing nitrocellulose blots of proteins separated by gel electrophoresis with antiphosphotyrosine antibodies. Several phosphotyrosine-containing proteins were detected in the synaptosomal particulate and P3 fractions, including proteins of Mr 180K, 145K, 120K, 100K, 77K, 68K, 62K, 54K, 52K, and 42K. In the cell soluble fraction a protein doublet of Mr 54/52K and a 120K protein were the major phosphotyrosine-containing proteins. The 54/52K doublet was the major protein tyrosine kinase substrate in the synaptosomal soluble fraction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Outer membrane proteins as major antigens of Fusobacterium nucleatum

Abstract The immunochemical reactions of rabbit polyclonal antibodies directed to different preparations of Fusobacterium nucleatum i.e, whole cells, peptidoglycan associated proteins, a peptidoglycan-protein complex and a purified 40 kiloDalton (kDa) protein, were investigated on outer membrane preparations of Fusobacterium species and a restricted number of Leptotrichia buccalis after their separation on sodium dodecyl sulphate polyacrylamide gels and electrotransfer to nitrocellulose. All F. nucleatum strains had identical reaction patterns with the immune sera tested. Surface exposed parts of a restricted number of proteins with apparent molecular weights at 70 kDa (a doublet band), 60 kDa, 55 kDa and 40 kDa seemed to be major immunogens. Antigenic related proteins either of identical or slightly deviating electrophoretic mobilities to the 40-kDa protein were observed with the other members of Bacteroidaceae tested. The characteristic 70-kDa protein doublet seemed to be restricted to F. nucleatum although single protein bands of near identical molecular weights belonging to the other species tested also reacted. The data also indicate that the 60-kDa and 55-kDa polypeptides might be present in other species of Fusobacterium .     

Trypsin-like enzyme activity of the extracellular membrane vesicles of Bacteroides gingivalis W50

Trypsin-like enzyme activity in spent culture media from 3-d-old batch cultures of Bacteroides gingivalis W50 was measured by using the hydrolysis of N alpha-benzoyl-L-arginine-p-nitroanilide. The cell-free culture medium was fractionated by differential centrifugation at 10,000 g and 75,000 g, yielding two particulate fractions and a soluble supernatant fraction. About 80% of the total recoverable activity was associated with the particulate fractions, the remainder being in the supernatant. Electron microscopy of ruthenium-red/osmium stained ultrathin sections of the pellet fractions showed them to be composed of vesicular particles (extracellular vesicles), between 50 and 250 nm in diameter. Enzyme activity in all three fractions was enhanced by dithiothreitol. Gel-permeation chromatography of the soluble fraction yielded one peak of activity which contained 64 kDa and 58 kDa polypeptides. Enzyme activity from the vesicular fractions could be solubilized by sonication, giving a similar chromatographic profile to the supernatant fraction. The main peak of activity was composed of 64 kDa and 58 kDa polypeptides. In addition, there was a higher molecular mass enzyme activity peak composed of the 64 kDa and 58 kDa components along with 111 kDa, 93 kDa and 70 kDa polypeptides. We conclude that the trypsin-like enzyme of B. gingivalis is released as a soluble protein and is also associated with extracellular vesicles, in which it may exist as a soluble component and also as a protein complex.     

Polypeptide pattern and enzymic character of vacuoles isolated from barley mesophyll protoplasts

Intact chloroplasts and vacuoles were isolated from mesophyll protoplasts of barley. The chloroplasts occupied about 15% of the cellular volume and contained 75% of the protein, whereas the vacuoles occupied about 80% of the volume and contained less than 4% of total cellular protein. Contamination of the vacuolar fraction by foreign protein is included in these values. Chlorophyll was absent from the vacuolar fraction, but less than 1% of several extra-vacuolar marker proteins were still present. The vacuoles contained hydrolytic enzymes. Several of them (-mannosidase, -galactosidase, N-acetylglucosaminidase) were soluble, whereas part of the activity of others semimented with the tonoplasts during centrifugation. Attached proteins could be released from the membranes during freezing in the presence of NaCl. One-dimensional gel electrophoretic separation of soluble vacuolar proteins under non-denaturing conditions yielded more than 10 protein bands. A comparative analysis was performed of thylakoids and vacuoles which were subfractionated into tonoplasts and soluble vacuolar constituents. Sodium dodecyl sulfate gel electrophoresis separated about 15 polypeptides of the soluble fraction which reacted with silver reagent. The tonoplast fraction yielded about 20 bands. A similar number of bands was observed when vacuoles incubated with the ¹⁴C-labelled SH-reagent N-ethylmaleimide were analysed for radioactive polypeptides. Silverstaining of the polypeptides and their SH-content did not correlate. Several polypeptides of the vacuolar fraction had molecular weights very similar to the molecular weights of known chloroplast proteins. However, with the exception of the two subunits of ribulose-1,5-bisphosphate carboxylase, contamination of the vacuolar fraction by chloroplast proteins could be ruled out as a possible cause of the close correspondence. The lipophilic carboxylic-group reagent N,N-dicyclohexylcarbodiimide ([¹⁴C]DCCD) reacted with several polypeptides of thylakoids and tonoplasts. However, the labelling patterns were different. The most heavily labelled polypeptide of thylakoids was the 8-kDa polypeptide of the basal part of the coupling factor CF₀. Tonoplast polypeptides heavily labelled with [¹⁴C]DCCD had molecular weights of 24, 28, and 56 kDa. The vacuolar 8-kDa polypeptide remained unlabelled.Abbreviations DCCD N,N-dicyclohexylcarbodiimide - IA iodoacetamide - NEM N-ethylmaleimide - PAGE polyacrylamide gel electrophoresis - PMSF phenylmethylsulfonylfluoride - SDS sodium dodecyl sulfate     

Purification and characterization of a 22-kDa protein in chloroplasts from green spores of the fern Osmunda japonica

Changes in the polypeptide composition of chloroplasts were investigated during germination of green spores of the fern Osmunda japonica . The polypeptide composition of chloroplasts was appreciably changed during a germination time course of 48 h. Levels of five polypeptides with apparent molecular masses of 47, 44, 42, 22 and 18.5 kDa in the soluble fraction of chloroplasts and three polypeptides with molecular masses of 24, 22 and 15 kDa in the thylakoid membranes decreased during germination. In contrast, no decrease of chloroplast polypeptides was observed in the spores incubated with cycloheximide for 48 h. A new 22-kDa protein was isolated from thylakoid membranes of spores and the amino-terminal sequence of the purified protein was determined. High levels of alanine and glycine were found in the basic protein (pl > 10.3). This protein, with a native molecular mass of 80 kDa, was characterized by a subunit band observed at a molecular mass of 22 kDa on SDS-PAGE and by the disappearance of the band during spore germination. Protease activity against the 22-kDa protein was observed in an extract prepared from chloroplasts of quiescent spores. A hypothetical cytosolic proteinaceous factor is implicated in the regulation of protein degradation in chloroplasts.     

The general mitochondrial processing peptidase from potato is an integral part of cytochrome c reductase of the respiratory chain.

The major mitochondrial processing activity removing presequences from nuclear encoded precursor proteins is present in the soluble fraction of fungal and mammalian mitochondria. We found that in potato, this activity resides in the inner mitochondrial membrane. Surprisingly, the proteolytic activity co-purifies with cytochrome c reductase, a protein complex of the respiratory chain. The purified complex is bifunctional, as it has the ability to transfer electrons from ubiquinol to cytochrome c and to cleave off the presequences of mitochondrial precursor proteins. In contrast to the nine subunit fungal complex, cytochrome c reductase from potato comprises 10 polypeptides. Protein sequencing of peptides from individual subunits and analysis of corresponding cDNA clones reveals that subunit III of cytochrome c reductase (51 kDa) represents the general mitochondrial processing peptidase.     

Purification and characterization of heparin-binding growth factors from porcine uterus.

Heparin-binding growth factors present in pig uterine tissue were purified by approx. 50,000-fold using a combination of ammonium sulphate precipitation, ion-exchange chromatography and heparin-affinity chromatography. Purification of the uterus-derived growth factors (UDGFs) was monitored by the stimulation of [3H]thymidine incorporation into Swiss 3T3 cells and by a radioreceptor assay using 125I-labelled epidermal growth factor (EGF) as the ligand. The latter was shown to be a novel, rapid and reliable assay for heparin-binding growth factors which utilizes their trans-modulation of EGF receptor affinity. UDGFs exhibit strong affinity for immobilized heparin and two forms, named alpha UDGF and beta UDGF, were distinguished by salt gradient elution from heparin-agarose affinity columns. beta UDGF activity was eluted from heparin-agarose between 1.5 M- and 1.8 M-NaCl, and was correlated with the elution of a protein doublet of 17.2 kDa and 17.7 kDa. Immunoblotting of heparin-purified beta UDGF indicated that the beta UDGF doublet is immunologically related to the 146-amino-acid form of bovine basic fibroblast growth factor (bFGF), and that the 17.2 kDa component is an N-terminally truncated form of the 17.7 kDa component. After purification by C4 reversed-phase h.p.l.c., this doublet was biologically active and greater than 95% pure as assessed by silver-stained SDS/PAGE. Amino acid composition and sequence analysis confirmed that these beta UDGF polypeptides were microheterogeneous forms of bFGF. Fractions containing alpha UDGF activity were eluted from heparin-agarose in 1.3 M-NaCl. These fractions contained a 16.5 kDa protein which co-migrated on SDS/polyacrylamide gels with recombinant human acidic FGF (aFGF) and which which cross-reacted with an antiserum raised against aFGF. The identification of heparin-binding growth factors in porcine uterus at the time of implantation raises the possibility that they function in the reproductive tract during early pregnancy.     

Outer membrane proteins as major antigens of Fusobacterium nucleatum

The immunochemical reactions of rabbit polyclonal antibodies directed to different preparations of Fusobacterium nucleatum i.e, whole cells, peptidoglycan associated proteins, a peptidoglycan-protein complex and a purified 40 kiloDalton (kDa) protein, were investigated on outer membrane preparations of Fusobacterium species and a restricted number of Leptotrichia buccalis after their separation on sodium dodecyl sulphate polyacrylamide gels and electrotransfer to nitrocellulose. All F. nucleatum strains had identical reaction patterns with the immune sera tested. Surface exposed parts of a restricted number of proteins with apparent molecular weights at 70 kDa (a doublet band), 60 kDa, 55 kDa and 40 kDa seemed to be major immunogens. Antigenic related proteins either of identical or slightly deviating electrophoretic mobilities to the 40-kDa protein were observed with the other members of Bacteroidaceae tested. The characteristic 70-kDa protein doublet seemed to be restricted to F. nucleatum although single protein bands of near identical molecular weights belonging to the other species tested also reacted. The data also indicate that the 60-kDa and 55-kDa polypeptides might be present in other species of Fusobacterium.