Differences in the envelope proteins ofChlamydia pneumoniae,Chlamydia trachomatis,andChlamydia psittaci shown by two-dimensional gel electrophoresis

Analysis by two-dimensional gel electrophoresis of theN-laurylsarkosinate(Sarkosyl)-insoluble envelope complexes ofl-^[35]S-cysteine-iabeled elementary bodies ofChlamydia pneumoniae strain IOL-207,Chlamydia trachomatis serovar LGV2, D, and F, andChlamydia psittaci strain 6BC showed differences in the molecular charges of chlamydial outer membrane proteins. The apparent isoelectric point (pI) of the major outer membrane protein ofC. pneumoniae strain IOL-207 was 6.4, whereas the pI of the major outer membrane protein of theC. trachomatis andC. psittaci strains differed little from one another, ranging from 5.3 to 5.5. The 60-kDa cysteinerich protein ofC. pneumoniae was the only 60-kDa chlamydial protein with a pI value (5.9) more acidic than that of the corresponding major outer membrane protein. As a general rule, the charges of both the 60-kDa and the lowmolecular-mass (12–15 kDa) cysteine-rich proteins were widely variable, depending on the strain. However, in cach individual strain, the variation of the charge of the 60-kDa protein had a compensatory change in the lowmolecular-mass cysteine-rich protein.     

Coat and enterotoxin-related proteins in Clostridium perfringens spores

Coat proteins from mature spores of two enterotoxin-positive (Ent+) and two enterotoxin-negative (Ent-) strains of Clostridium perfringens were solubilized using 50 mM-dithiothreitol and 1% sodium dodecyl sulphate at pH 9.7, and alkylated using 110 mM-iodoacetamide to prevent aggregation. The coat proteins and C. perfringens type A enterotoxin (CPE) were separated by SDS-PAGE and analysed by Western blotting using anti-CPE antibody. As previously reported, CPE aggregated in the presence of SDS, but no aggregation occurred at concentrations below 15 micrograms CPE ml-1. Two CPE-related proteins (34 and 48 kDa) were found in the solubilized spore coat protein of Ent+ strains while only the 48 kDa CPE-related protein was found in the spore coat fraction of Ent- strains. CPE-related proteins comprised 2.7% and 0.8% of the total solubilized coat protein of Ent+ and Ent- strains respectively. CPE-related proteins could be extracted from the spores with 1% SDS alone. They could also be released by disruption of whole spores, indicating that the CPE-related proteins may be in the spore core or trapped between the core and coat layers. The results suggest that CPE is not a major structural component of the coat fraction of C. perfringens spores.     

Histopathological effect ofClostridium perfringens 8-6 enterotoxin on rabbit intestine

Intestinal damage caused by an enterotoxin from a coatless spore mutant ofClostridium perfringens type A (8-6) was identified by both light and scanning electron microscopy. Under the light microscope, damage to the epithelial layer of the villus and to the lamina propria was evident. Whole tissue viewed under the scanning electron microscope confirmed the two distinct forms of damage seen by light microscopy and showed that the action of the enterotoxin on an individual villus appears to occur in a specific sequence. The gross tissue damage observed contrasts with that found in previous studies of the action ofClostridium perfringens enterotoxin on rabbit ileal tissue; this suggests that the 8-6 enterotoxin may have a different mode of action on the cell, which subsequently leads to death and lysis.     

Two strains ofVibrio cholerae non-O1 possessing somatic (O) antigen factors in common withV. cholerae serogroup O139 synonym “Bengal”

Two strains (O22 reference strain, 169–68, and strain 490–93 isolated from a patient with diarrhea in Thailand) ofVibrio cholerae non-O1 possessing somatic (O) antigen factors in common withV. cholerae O139 synonym Bengal are described. The O antigens of these two strains were closely related to that ofV. cholerae O139 in an a,b-a,c type of relationship, but were not completely identical with serogroup O139. Therefore, both these strains are not classified into the O139 serogroup ofV. cholerae, because they have their own major antigens. As the strain 490–93 could not be placed into any of the 154 established O serogroups ofV. cholerae, this strain was assigned to a new serogroup, O155. For practical use, the diagnostic antiserum prepared against the O139 reference strain (MO45, ATCC 51394) ofV. cholerae must be absorbed with reference strains 169–68 and 490–93 representing serogroups O22 and O155 ofV. cholerae to remove cross-reacting agglutinins of the O22 and O155 strains, respectively.     

Enterotoxigenicity and Genetic Relatedness of Clostridium perfringens Isolates from Retail Foods in the United States

Clostridium perfringens is a leading cause of bacterial food-borne illness in countries where consumption of meat and poultry is high. For example, each year in the United States, this organism is the second or third most common cause of confirmed cases of food-borne illness. Surveys of the incidence of this organism in retail foods were done in the 1960s without regard to whether isolates were enterotoxigenic. It is now known that not all strains of this organism possess the enterotoxin gene responsible for illness. We examined the incidence of this organism in 131 food samples from retail food stores in an area of the northeastern United States. Forty isolates were obtained by using the iron milk method at 45°C, with confirmation by use of motility nitrate and lactose gelatin media. The presence of the C. perfringens enterotoxin (cpe) and alpha toxin (cpa) genes was determined by PCR using previously published primer sequences. All isolates possessed cpa. None of the isolates were identified as carrying the cpe gene by this method or by another method using a digoxigenin-labeled gene probe. Consistent with these results, none of the sporulating-cell extracts contained enterotoxin as determined by reverse passive latex hemagglutination. Pulsed-field gel electrophoresis was used to determine the genetic relatedness of the isolates. About 5% of the isolates were considered to be closely related (2- to 3-band difference). The others were considered to be unrelated to one another. The results demonstrate the rarity of cpe⁺ strains in retail foods and the genetic diversity among nonoutbreak strains.     

Hexose phosphate metabolism and exopolysaccharide formation inPseudomonas cepacia

When grown on solid medium containing excess glucose, glucose dehydrogenase-deficient (Gcd^–) mutants ofPseudomonas cepacia 249 formed large amounts of an exopolysaccharide comprised of galactose, glucose, mannose, glucuronic acid, and rhamnose. The Gcd⁺ parent strain failed to accumulate comparable amounts of exopolymer from glucose because of its rapid conversion of glucose to gluconic and 2-ketogluconic acids and its lower content of enzymes related to glucose-1-phosphate synthesis. Both Gcd⁺ and Gcd^– strains ofP. cepacia accumulated exopolymer when substrates such as mannitol and glycerol were substituted for glucose. A survey of clinical isolates from patients with cystic fibrosis indicated that there was no correlation between ability ofP. cepacia to colonize the respiratory tracts of such individuals and increased capacity to form exopolymer related to glucose dehydrogenase deficiency.     

Evidence for stable messenger ribonucleic acid during sporulation and enterotoxin synthesis by Clostridium perfringens type A.

Stable messenger ribonucleic acid (mRNA) was shown to be involved in both enterotoxin synthesis and synthesis of other spore coat proteins in Clostridium perfringens. When used at a concentration that inhibited [14C]uracil incorporation, rifampin, a specific inhibitor of deoxyribonucleic acid-dependent RNA polymerase, prevented incorporation of a mixture of labeled amnoo acids by 3-h sporulating cells. At that time, enterotoxin protein was first detectable and cells were primarily at stage II or III of sporulation. When rifampin or streptolydigin was added to 5-h sporulating cells, which were primarily at stage IV or V and had significant toxin levels, incorporation of labeled amino acids continued through 30 min despite its presence. Rifampin also failed to prevent the specific synthesis of enterotoxin, a structural protein of the spore coat. The half-life of enterotoxin RNA was estimated to be at least 58 min. When cell extracts from 5-h sporulating cells that had been exposed to 3H-labeled amino acids for 10 min were subjected to electrophoresis on polyacrylamide gels and the gels were subsequently analyzed for radioactivity, two major peaks of radioactivity were obtained. The two peaks corresponded to enterotoxin and another spore coat protein(s). Similar results were obtained when the cells had been preincubated for 60 min with rifampin before label addition, indicating the functioning of stable mRNA.     

Characterization of aBacillus subtilis germination mutant with pleiotropic alterations in spore coat structure

One class of spore germination mutants ofBacillus subtilis produces lysozymesensitive spores with altered surface structure. These mutations were pleiotropic in that the pattern of soluble and insoluble spore coat proteins was extensively changed with the virtual absence of a major 12kd polypeptide. Reversion to the lysozyme-resistant phenotype (and wild-type spore coat profile) at or near the site of the original mutation occurred at a frequency consistent with an initial point mutation.The 12kd protein was also absent from extracts of sporulating cells of the mutant although antigens of 14kd and 32kd protein cross-reacting with antibody to the 12kd polypeptide were detected. The 32kd antigen was also present in extracts of sporulating cells but not in the extracts of the spore coat of the wild type and is probably a precursor. Improper processing of such a precursor could account for the extensive alterations of coat structure.     

Inhibitory effect of garlic on bacterial pathogens from spices

An unconventional technique for primary screening of bacterial susceptibility to garlic (Allium sativum Linn.), using a slice from its clove, was described. Aqueous extracts of garlic were found to possess a potent bacteriostatic principle against Gram-positive as well as Gram-negative foodborne bacterial pathogens. In agar medium, the minimum inhibitory concentrations (MICs) of garlic were 6–10 mg ml^–1 for Bacillus cereus, 30–40 mg ml^–1 for Staphylococcus aureus (excepting the isolate from garlic, where the MIC was 100 mg ml^–1), 20–30 mg ml^–1 for Clostridium perfringens, 10 mg ml^–1 for Escherichia coli (30 mg ml^–1 for the garlic isolate), 40–100 mg ml^–1 for Salmonella, and 10–40 mg ml^–1 for Shigella. It inhibited the growth of all these strains, which were resistant to some commonly used antibiotics. Most of the tested strains were resistant to penicillins, although sensitive to garlic. While the growth of B. cereus and Cl. perfringens was completely inhibited at 10 and 70 mg garlic, respectively, ml^–1 test broth, their respective enterotoxin production ceased at 10 and 50 mg garlic ml^–1.     

A protein phosphorylation module patterns the Bacillus subtilis spore outer coat

Assembly of the Bacillus subtilis spore coat involves over 80 proteins which self-organize into a basal layer, a lamellar inner coat, a striated electrodense outer coat and a more external crust. CotB is an abundant component of the outer coat. The C-terminal moiety of CotB, SKR^B, formed by serine-rich repeats, is polyphosphorylated by the Ser/Thr kinase CotH. We show that another coat protein, CotG, with a central serine-repeat region, SKR^G, interacts with the C-terminal moiety of CotB and promotes its phosphorylation by CotH in vivo and in a heterologous system. CotG itself is phosphorylated by CotH but phosphorylation is enhanced in the absence of CotB. Spores of a strain producing an inactive form of CotH, like those formed by a cotG deletion mutant, lack the pattern of electrondense outer coat striations, but retain the crust. In contrast, deletion of the SKR^B region, has no major impact on outer coat structure. Thus, phosphorylation of CotG by CotH is a key factor establishing the structure of the outer coat. The presence of the cotB/cotH/cotG cluster in several species closely related to B. subtilis hints at the importance of this protein phosphorylation module in the morphogenesis of the spore surface layers.     

Conditional lysis ofEscherichia coli by the fusion of extracellular (STA) to periplasmic (LTB) enterotoxins: Apparent phenotypic suppression of lactose permease

The expression of a methanol-soluble, heat-stable enterotoxin (ST_A) fused to the B subunit of the heat-labile enterotoxin (LT_B) at 35°C or higher temperatures caused strains ofEscherichia coli deficient in lactose permease to behave on indicator media as Lac⁺; however, at 33°C or lower temperatures the original Lac^– phenotype of the host strains was maintained. The apparent phenotypic suppression oflacY was shown to be due to lysis of a fraction of the bacteria and the consequent release of active-galactosidase to the culture supernatant. After incubation at 37°C for 1 h, the cultures were committed to lyse. Plasmid and chromosomal mutants that do not show this phenotype were isolated by selecting Lac^– colonies at the unpermissive temperature. The mutations on the plasmids were localized in both the heat-stable and the heat-labile enterotoxin genes. Chromosomal mutants that show normal levels of-galactosidase and fused toxins have also been isolated.     

Serological diagnosis of petriellidiosis (Allescheriosis)

Soluble antigens in culture filtrates of three strains of Petriellidium boydii and three strains of Monosporium apiospermum were examined. Antigens were separated from concentrated crude filtrates by anion-exchange chromatography. A single major peak (Antigen 1), constituting a significant proportion of the total recoverable carbohydrate, was the only product isolated from each of four chromatographed filtrates. Depending on the fungus strain, Antigen 1 consisted of 90–96% carbohydrate, 3–4% protein, and 2–4% nucleic acid. Antigen 1 was found to consist of a population of molecules with a heterogeneous molecular size when assayed by gel filtration chromatography; however, isolated fractions of Antigen 1 proved to be immunologically identical when examined by Ouchterlony immunodiffusion. In addition, Antigen 1 from each strain was immunologically identical to similar preparations of Antigen 1 from the other five fungus strains. Chromatography of culture filtrates from two strains of M. apiospermum revealed a second peak (Antigen 2), which was found to consist of 70% carbohydrate, 16% protein, and 4% nucleic acid. Although Antigen 2 contained four times as much protein as Antigen 1, the two preparations were immunologically identical by immunodiffusion tests. Ion-exchange chromatography proved to be a useful procedure for isolating antigens of P. boydii and M. apiospermum from culture filtrates.     

Isolation and protein composition of the outer membrane ofErwinia amylovora

The outer membrane (OM) ofErwinia amylovora was separated from the cytoplasmic membrane either by isopycnic sucrose density gradient centrifugation or by treating the envelope preparation with sodium lauroylsarcosine. Outer membranes, prepared by using either method, were similar in the content of the major proteins as revealed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The wild-type strains ofE. amylovora (E9, E8, EA178, EA198, EA225, EA273) had—in common in the OM—two major protein bands of apparent molecular weights of 15,800 (protein z) and 38,000 (protein y). The OM protein profiles of the virulent wild-type (E9) and the avirulent mutant (E8) were identical but differed from otherE. amylovora strains by the presence of an additional major protein band of approximately 40,000 (protein x). In strain E9, protein x appeared to be associated with the peptidoglycan, whereas proteins y and z were apparently not peptidoglycan-bound.     

Iron limitation and its effect on membrane proteins and siderophore transport inNeurospora crassa

Summary Cells of the fungusNeurospora crassa were grown under iron-deficient and iron-sufficient conditions and their plasma membrane proteins were compared. Three strains were studied:N. crassa 74A (wild type), a siderophore-free mutantN. crassa (arg-5 ota aga) as well as a slime variant ofN. crassa which lacks a cell wall. Plasma membranes were purified, solubilized and analyzed by one-dimensional SDS/polyacrylamide gel electrophoresis yielding approximately 50 distinct protein bands with molecular masses in the range 14–160 kDa. Iron-sufficient and iron-deficient growth resulted in nearly identical plasma membrane protein profiles in all strains. Although minor alterations in the proportion of certain proteins could be detected, significant overproduction of certain membrane proteins during iron limitation could not be observed. Transport of⁵⁵ Fe-labeled siderophores seems to be correlated to the degree of iron limitation. For example, transport rates were enhanced five-fold after 16 h of growth in iron-deficient medium compared to growth in iron-sufficient medium. Extraction and HPLC measurement of siderophores from conidiospores yielded approximately 10^–15 mol/spore, indicating that germination tubes and young cells used for transport measurements are not iron-deficient. It is suggested that the putative transport systems for siderophores in fungal plasma membranes are constitutively expressed and enhanced uptake of siderophores during iron limitation is rather the result of cellular transport regulation mechanisms.     

Binding selectivity ofStreptococcus pyogenes and M-protein to epithelial cells differs from that of lipoteichoic acid

The ability of M-protein-positive (M⁺) and M-protein-negative (M^–) strains (including an M^– mutant lacking the structural gene for M-protein) ofStreptococcus pyogenes to attach to human pharyngeal, buccal, and tongue epithelial cells was compared. We observed that M⁺ strains ofS. pyogenes attached in significantly higher numbers to human pharyngeal epithelial cells than to human buccal or tongue cells. M^– strains did not exhibit high-level binding to any type of epithelial cell. Also, the adhesion of an M⁺ and an M^– strain ofS. pyogenes was low to all types of rat epithelial cells tested. The apparent differences in the surface components between human pharyngeal and buccal epithelial cells were confirmed by studies utilizing radiolabeled lectins.Ulex europaeus lectin with a specificity for fucosyl residues, andTriticum vulgaris lectin with a specificity for N-acetyl glucosamine and N-acetyl neuraminic acid residues, bound in higher amounts to human pharyngeal cells than to buccal cells. Pretreatment of pharyngeal epithelial cells with microgram quantities of highly purified type 6 M-protein or miligram quantities of lipoteichoic acid (LTA) derived fromS. pyogenes decreased the subsequent attachment of the organism. However, the binding specificities of³H-LTA were different from those of intact streptococci;³H-LTA bound comparably to human pharyngeal, buccal, and tongue epithelial cells, and it bound in higher quantities to rat epithelial cells. Also, although the adsorption ofS. pyogenes cells to pharyngeal cells was inhibited by the presence of fucose and galactose, these sugars had little effect on the binding of³H-LTA to epithelial cells. In contrast, the high adhesion of M⁺ strains but not M^– mutants to pharyngeal cells suggested that M-protein may play an important role. This possibility was supported by the observation that³H-labeled purified type 6 M-protein bound in higher concentrations to human pharyngeal epithelial cells than to human buccal cells. Furthermore, human pharyngeal epithelial cells were estimated to contain larger numbers of binding sites for M-protein than buccal cells, whereas the affinity of M-protein was similar to both cell types. These adsorption parameters are similar to those previously established for intact streptococcal cells.     

Identification of the product oftetP gene: A possible mechanistic basis for tetracycline resistance inClostridium perfringens

Using cloning andin vitro protein synthesis we identified the polypeptide product of thetetP gene ofClostridium perfringens which is responsible for conferring resistance to tetracycline. TwoEcoRI fragments invariably share the resistance determinant in all of theClostridium perfringens isolates that we studied. Likewise, two proteins of 10 and 20 kDa were found to be conserved in all of the recombinant clones. The 10 kDa protein appears to be responsible for the constitution of the expression oftetP gene inC. perfringens.     

Immunological Detection of 22K Protein in Sporulating Cells of Bacillus megaterium ATCC 12872

The synthesis and deposition of 22,000-dalton (22K) spore coat protein were examined immunochemically on the sporulating cells of Bacillus megaterium ATCC 12872 using the antibody to purified 22K spore coat protein. This antibody cross-reacted with 44K and 25K proteins in immunoblot analysis of dormant spore coat proteins. Immunoblot analysis on the sporulating cells showed that 22K protein was detected from t₈ in forespore coat protein fractions. Sandwich enzyme immunoassay revealed that 22K protein in the spore coat protein fraction appeared at t₆ and reached a plateau at t₉, and 22K protein in the mother cell cytoplasmic fraction was detected at only t₇ and t₈ at a very low level.     

The improvement and utilization in forestry of nitrogen fixation by actinorhizal plants with special reference toAlnus in Scotland

Summary Alnus species are used widely in Britain for land reclamation, forestry and other purposes. Rapid juvenile growth of the AmericanAlnus rubra makes it an attractive species for planting on N-deficient soils, particularly those of low organic content. In small plot trials, this species is nodulated by indigenous soil frankiae as effectively asAlnus glutinosa. Over a three year period both species return similar amounts of N to the ecosystem, estimated at up to 10–12 kg N ha^–1. Several strains ofFrankia have been isolated from local (Lennox Forest)A. rubra nodules. These differ morphologically and in their growth on different culture media, both from each other and fromA. glutinosa nodule isolates. AllAlnus isolates, however, have a total cellular fatty acid composition qualitatively similar to some other Group B frankiae. Glasshouse tests in N free culture suggest thatA. rubra nodules formed after inoculation of seedlings with American spore (–) isolates are three times more effective in N fixation than those inoculated with LennoxA. rubra spore (+) nodule homogenates. By contrast, the early growth of seedlings inoculated with spore (–)Frankia strains suggests at best a 35% improvement in N fixing activity over seedlings inoculated with LennoxA. rubra nodule isolates. Nevertheless, this improvement in activity, together with the better performance of seedlings inoculated with isolates compared with those treated with crushed nodule preparations, suggest that it would be worthwhile commercially to inoculate nursery stock with a spore (–)Frankia strain.     

Further observations on the effect of ethionine on the synthesis of β-galactosidase inEscherichia coli: Formation of an immunologically cross-reacting protein

It was found that ethionine partially inhibits the transport of the inducer (TMG) of β-galactosidase into the cells ofEscherichia coli ML-30. The synthesis of β-galactosidase-specific messenger RNA is not inhibited. Ethionine appears to be incorporated into proteins synthesized by the strains used. The incorporation of ethionine into the molecule of β-galactosidase results in the synthesis of an enzymically inactive, immunologically cross-reacting protein.     

The Murein Hydrolase of the Bacteriophage φ3626 Dual Lysis System Is Active against All Tested Clostridium perfringens Strains

Clostridium perfringens commonly occurs in food and feed, can produce an enterotoxin frequently implicated in food-borne disease, and has a substantial negative impact on the poultry industry. As a step towards new approaches for control of this organism, we investigated the cell wall lysis system of C. perfringens bacteriophage 3626, whose dual lysis gene cassette consists of a holin gene and an endolysin gene. Hol3626 has two membrane-spanning domains (MSDs) and is a group II holin. A positively charged beta turn between the two MSDs suggests that both the amino terminus and the carboxy terminus of Hol3626 might be located outside the cell membrane, a very unusual holin topology. Holin function was experimentally demonstrated by using the ability of the holin to complement a deletion of the heterologous phage λ S holin in λΔSthf. The endolysin gene ply3626 was cloned in Escherichia coli. However, protein synthesis occurred only when bacteria were supplemented with rare tRNA^Arg and tRNA^Ile genes. Formation of inclusion bodies could be avoided by drastically lowering the expression level. Amino-terminal modification by a six-histidine tag did not affect enzyme activity and enabled purification by metal chelate affinity chromatography. Ply3626 has an N-terminal amidase domain and a unique C-terminal portion, which might be responsible for the specific lytic range of the enzyme. All 48 tested strains of C. perfringens were sensitive to the murein hydrolase, whereas other clostridia and bacteria belonging to other genera were generally not affected. This highly specific activity towards C. perfringens might be useful for novel biocontrol measures in food, feed, and complex microbial communities.