Kasugamycin methylase modified by ribosomal RNA from group A streptococci]

Kasugamycin sensitivity in Escherichia coli depends on the specific enzyme methylating rRNA. Native group A streptococci (GAS) were found to be sensitive to kasugamycin. After introduction of the erythromycin gene located on the transposon Tn916E into GAS some of the strains obtained kasugamycin resistance together with erythromycin resistance (erm). One of these strains carrying the transposon in its chromosome was tested for methylase activity. It was demonstrated to be deficient in kasugamycin methylase (ksg). The presented data proves the presence of ksg methylase in GAS. Evolutionary relationship between erm and ksg genes is discussed.     

In vitro antibacterial activity of kasugamycin

Kasugamycin is an aminoglycosidic antibiotic which was initially reported as being of potential use against Pseudomonas. Our evaluation of this antibiotic does not confirm this expectation. The median minimal inhibitory concentration (MIC) of the Pseudomonas strains tested was 250 μg/ml and the bactericidal level was 500 μg/ml. Kasugamycin was found to be slightly more active in a more basic medium (Mycin Assay broth) in which the median MIC for 11 Pseudomonas strains was 125 μg/ml. Kasugamycin manifests a modest degree of serum binding. Kasugamycin did not have any appreciable effect against a variety of bacteria tested. The only exceptions were several species of gram-negative bacteria, against which more satisfactory antibiotics already exist. Further evaluation of kasugamycin for potential human use as an antipseudomonal agent does not appear warranted.     

草果叶斑病防治初步研究

从发病的草果叶片上分离得到草果叶斑病病原菌,进行药剂筛选试验,把不同处理的哈茨木霉(Tri-choderma harzimum)菌株和病原菌对峙培养,结果表明:春雷霉素400倍药液下病菌菌丝无法生长,金歌1 500倍、多菌灵800倍、易保1000倍、春雷霉素500倍药液对病原菌菌丝生长抑制率在61%以上;不同处理的哈茨木霉菌株对草果叶斑病病原菌均有抑制效果,且药物诱变和紫外线诱变的突变菌株比野生型菌株抑菌效果显著。     

Differential inhibition of 30S and 70S translation initiation complexes on leaderless mRNA by kasugamycin

In contrast to canonical mRNAs, translation of leaderless mRNA has been previously reported to continue in the presence of the antibiotic kasugamycin. Here, we have studied the effect of the antibiotic on determinants known to affect translation of leadered and leaderless mRNAs. Kasugamycin did not affect the Shine-Dalgarno (SD)-anti-SD (aSD) interaction or the function of translation initiation factor 3 (IF3). Thus, the preferential translation of leaderless mRNA in the presence of kasugamycin can neither be attributed to an expanding pool of 30S subunits with a "blocked" aSD nor to a lack of action of IF3, which has been shown to discriminate against translation initiation at 5'-terminal start codons. Using toeprinting, we observed that on leaderless mRNA 70S in contrast to 30S translation initiation complexes are comparatively resistant to the antibiotic. These results taken together with the known preference of 70S ribosomes for 5'-terminal AUGs lend support to the hypothesis that translation of leaderless mRNAs may as well proceed via an alternative initiation pathway accomplished by intact 70S ribosomes.     

Caffeine interactions with methyl methanesulphonate, hycanthone, benlate, and cadmium chloride in chromosomal meiotic segregation of Saccharomyces cerevisiae

Interactions of caffeine with chemicals known for their effects on chromosomal segregation during meiosis of Saccharomyces cerevisiae were studied. It appears that caffeine does interfere with the action of other compounds during the different phases of meiosis. Treatments with methyl methanesulphonate (MMS) and cadmium chloride (CdCl2) resulted in a synergistic effect consisting of an increase in the frequency of recombination. The greatest effects were found on the induction of diploid spores: MMS, hycanthone, and distamycin demonstrated strong, benlate little synergistic action. CdCl2 demonstrated antagonism to caffeine by counter-inhibiting its effect on the induction of diploids. Concerning disomic induction: caffeine reduced (or left unchanged) the effect on non-disjunction when MMS and hycanthone were used. Simple additive effects were caused in conjunction with distamycin, benlate, and (in small doses) CdCl2. 2 mg of caffeine/ml in treatments with CdCl2 resulted in a very high frequency of disomic clones.     

Bactericidal Compounds Controlling Growth of the Plant Pathogen Pseudomonas syringae pv. actinidiae,Which Forms Biofilms Composed of a Novel Exopolysaccharide

Pseudomonas syringae pv. actinidiae is the major cause of bacterial canker and is a severe threat to kiwifruit production worldwide. Many aspects of the disease caused by P. syringae pv. actinidiae, such as the pathogenicity-relevant formation of a biofilm composed of extracellular polymeric substances (EPSs), are still unknown. Here, a highly virulent strain of P. syringae pv. actinidiae, NZ V-13, was studied with respect to biofilm formation and architecture using a flow cell system combined with confocal laser scanning microscopy. The biofilm formed by P. syringae pv. actinidiae NZ V-13 was heterogeneous, consisting of a thin cellular base layer 5 μm thick and microcolonies with irregular structures. The major component of the EPSs produced by P. syringae pv. actinidiae NZ V-13 bacteria was isolated and identified to be an exopolysaccharide. Extensive compositional and structural analysis showed that rhamnose, fucose, and glucose were the major constituents, present at a ratio of 5:1.5:2. Experimental evidence that P. syringae pv. actinidiae NZ V-13 produces two polysaccharides, a branched α-d-rhamnan with side chains of terminal α-d-Fucf and an α-d-1,4-linked glucan, was obtained. The susceptibility of the cells in biofilms to kasugamycin and chlorine dioxide was assessed. About 64 and 73% of P. syringae pv. actinidiae NZ V-13 cells in biofilms were killed when kasugamycin and chlorine dioxide were used at 5 and 10 ppm, respectively. Kasugamycin inhibited the attachment of P. syringae pv. actinidiae NZ V-13 to solid surfaces at concentrations of 80 and 100 ppm. Kasugamycin was bacteriostatic against P. syringae pv. actinidiae NZ V-13 growth in the planktonic mode, with the MIC being 40 to 60 ppm and a bactericidal effect being found at 100 ppm. Here we studied the formation, architecture, and composition of P. syringae pv. actinidiae biofilms as well as used the biofilm as a model to assess the efficacies of bactericidal compounds.     

Increased kasugamycin sensitivity in Escherichia coli caused by the presence of an inducible erythromycin resistance (erm) gene of Streptococcus pyogenes

Summary An inducible erythromycin resistance gene (erm) of Streptococcus pyogenes was introduced into Escherichia coli by transformation with a plasmid. The recipient E. coli cells were either kasugamycin sensitive (wildtype) or kasugamycin resistant (ksgA). The MIC values of erythromycin increased from 150 g/ml to>3000 g/ml for E. coli. An extract of transformed cells, particularly a high-salt ribosomal wash, contained an enzyme that was able to methylate 23S rRNA from untransformed cells in vitro; however, 23S rRNA from transformed cells was not a substrate for methylation by such an extract. 165 rRNA and 30S ribosomal subunits of either the wild type or a kasugamycin resistant (ksgA) mutant were not methylated in vitro. Transformation of E. coli by the erm-containing plasmid led to a reduction of the MIC values for kasugamycin. This happened in wild-type as well as in ksgA cells. However, in vitro experiments with purified ksgA encoded methylase demonstrated that also in erm transformed E. coli, the ksgA encoded enzyme was active in wild-type, but not in ksgA cells. It was also shown by in vitro experiments that ribosomes from erm ksgA cells have become sensitive to kasugamycin. Our experiments show that in vivo methylation of 23S rRNA, presumably of the adenosine at position 2058, leads to enhanced resistance to erythromycin and to reduced resistance to kasugamycin. This, together with previous data, argues for a close proximity of the two sites on the ribosome that are substrates for adenosine dimenthylation.Abbreviations MLS macrolide, lincosamide, streptogramin B     

Differential inhibitory effects of antibiotics on the biosynthesis of envelope proteins of Escherichia coli

Inhibitory effects of six antibiotics (kasugamycin, tetracycline, chloramphenicol, sparsomycin, puromycin and rifampicin) on the biosynthesis of envelope proteins of Escherichia coli were examined and compared with those on the biosynthesis of cytoplasmic proteins. Kasugamycin, puromycin and rifampicin were much more inhibitory to the over-all biosynthesis of cytoplasmic proteins than to that of envelope proteins. On the contrary, tetracycline and sparsomycin showed much stronger inhibitory effects on the biosynthesis of envelope proteins than on that of cytoplasmic proteins. Chloramphenicol showed little difference in its inhibitory effect on the biosynthesis of envelope proteins and cytoplasmic proteins.The envelope proteins were labeled with [³H]arginine in the presence of the antibiotics and separated by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The inhibitory effects of the antibiotics on the biosynthesis of individual envelope proteins were then examined. Inhibition patterns were found to be widely different from one envelope protein to the other. For example, the biosynthesis of one major envelope protein of molecular weight 38,000 was more resistant to kasugamycin, chloramphenicol and sparsomycin than that of the other envelope proteins. On the other hand, the biosynthesis of another major envelope protein (lipoprotein) of about 7500 molecular weight was much more resistant to puromycin and rifampicin than that of the other envelope proteins. In the case of tetracycline, little differential inhibitory effect on the biosynthesis of individual envelope proteins was observed.Stability of messenger RNAs for individual envelope proteins was also determined from the inhibitory effect of rifampicin on their biosynthesis. It was found that the average of half lives of mRNAs for major envelope proteins examined (5.5 minutes) is twice as long as the average of those of mRNAs for cytoplasmic proteins (2 minutes), except for the lipoprotein of about 7500 molecular weight which has extremely stable mRNA with a half life of 11.5 minutes. From these results the envelope proteins of E. coli appear to be biosynthesized in a somewhat different manner from that of the cytoplasmic proteins. Furthermore, at least some envelope proteins may have their own specific biosynthetic systems.     

Interaction of antibiotics with A- and P-site-specific bases in 16S ribosomal RNA.

We have studied the interactions of the antibiotics apramycin, kasugamycin, myomycin, neamine and pactamycin with 16S rRNA by chemical probing of drug-ribosome complexes. Kasugamycin and pactamycin, which are believed to affect translational initiation, protect bases in common with P-site-bound tRNA. While kasugamycin protects A794 and G926, and causes enhanced reactivity of C795, pactamycin protects G693 and C795. All four of these bases were previously shown to be protected by P-site tRNA or by edeine, another P-site inhibitor. Apramycin and neamine, which both induce miscoding and inhibit translocation, protect A1408, G1419 and G1494, as was also found earlier for neomycin, gentamicin, kanamycin and paromomycin. A1408 and G1494 were previously shown to be protected by A-site tRNA. Surprisingly, myomycin fails to give strong protection of any bases in 16S rRNA, in spite of having an apparently identical target site and mode of action to streptomycin, which protects several bases in the 915 region. Instead, myomycin gives only weak protection of A1408. These results suggest that the binding site(s) of streptomycin and myomycin have yet to be identified.     

Inhibition of yeast ribonucleic acid polymerases by thiolutin

Yeast ribonucleic acid (RNA) polymerase II, isolated after fractionation on diethylaminoethyl (DEAE)-cellulose (DE-52) or on DEAE-Sephadex (A-25), is 50% inhibited by 1.5 mug of alpha-amanitin. This inhibition is independent of the sequence of interaction of enzyme, template, nucleotides, and antibiotic and is expressed immediately on addition of alpha-amanitin to a preparation actively synthesizing RNA. Thus, alpha-amanitin's primary effect is inhibition of elongation of preinitiated RNA sequences in this system, as in others. A single peak of alpha-amanitin-resistant RNA polymerase activity (I) was eluted before enzyme II on either column. On A-25 but not on DE-52, a third peak of activity (III) was eluted after enzyme II. This activity was also resistant to alpha-amanitin. Enzymes I, II, and III were 50% inhibited by 3, 4, and 3 mug of thiolutin per ml, respectively. The extent of inhibition was independent of the nature of the template (native or denatured salmon sperm deoxyribonucleic acid or poly(dA-dT) or of the presence of 0.4 mM dithiothreitol, but this marked inhibition was only seen when enzymes were preincubated with thiolutin in the absence of template. Template protected the enzymes against thiolutin in the absence of nucleotides. Either the sensitive site on the polymerase is only accessible to thiolutin before interaction with template or thiolutin inhibits functional polymerase-template interaction but not elongation of preinitiated RNA chains.     

The ribosomal components responsible for kasugamycin dependence, and its suppression, in a mutant of Escherichia coli

Summary The phenotype of a kasugamycin dependent mutant, MV17, was found to be the product of a kasugamycin resistance mutation in ksgA, together with a dependentizing mutation in rplW, the gene for large ribosomal subunit protein L23. Revertants from dependence on this small subunit targeted antibiotic were found to have mutational alterations in ribosomal proteins L23, L1, L11, and S9. The mutations causing alterations in L1 and L23 were shown to be responsible for the reversion and that altering L11 to be involved in the reversion.     

Conditional lethal mutants of Bacillus subtilis dependent on kasugamycin for growth

Summary Mutants of Bacillus subtilis dependent on the antibiotic kasugamycin have been isolated and characterised. The mutant phenotype was the result of a kasugamycin resistance mutation mapping near leu, together with a mutation conferring dependence which mapped elsewhere on the chromosome. In some cases, the latter mutation caused spectinomycin dependence in a spectinomycin resistant strain. Four mutants had detectable alterations in ribosomal proteins, which were not, however, responsible for the phenotype. These alterations were in proteins BS3, BS7, BS9, and BL15. Some mutants had defects in ribosomal subunit assembly, or altered cell morphology associated with the mutant phenotype.     

Control of the moldsAspergillus sydowi andPenicillium citrinum in laboratory colonies of the lone-star tick,Amblyomma americanum (Acari: Ixodidae)

Contamination of tick colonies by molds is a widespread problem. Ticks held in moldy containers have a consistently higher mortality rate compared with containers having little or no mold growth. Three fungicides (captan, folpet, benlate), a wetting agent (Triton X-100), and chlorine gas (from 0.052% aqueous sodium hypochlorite) were evaluated for activity against the moldsAspergillus sydowi andPenicillium citrinum in laboratory colonies of the lone star tick,Amblyomma americanum (L.). Only chlorine gas caused a significant reduction in mold growth in paper containers used to hold ticks, without harming them. Significantly more adults were alive at 180 days post-treatment in aquaria with chlorine gas than in chlorine-gas-free aquaria, whereas mortality in nymphs under these conditions was unchanged. Eggs oviposited in aquaria treated with chlorine gas failed to hatch.     

Functional inactivation rates of the messenger RNA molecules coding for the individual ribosomal proteins in Escherichia coli.

Summary The rates of functional decay of messenger RNA coding for total soluble, total ribosomal and individual ribosomal proteins were measured in Escherichia coli strain AS-19, at 30^o. This was accomplished by blocking RNA synthesis with the inhibitor thiolutin and measuring residual protein synthesis at various times thereafter. The data obtained expressed as a decay constant (Hartwell and Magasanik, 1963) show that both total soluble and total ribosomal protein decay with similar rates (K ₂=0.64 and 0.61 respectively) which are slightly faster than the decay rate of -galactosidse (k ₂=0.43) under these conditions. All the individual ribosomal proteins appear to comprise a population of cistrons whose individual mRNA's decay with very similar rates with the possible exception of protein L3, whose mRNA appears consistently to decay very rapidly.Additional data on the stability of the total soluble and total ribosomal proteins during thiolutin treatment (that is, proteins synthesized in the absence of concommitant ribosomal RNA synthesis) fail to demonstrate any marked difference between these two protein populations. Examination of the stability of the individual ribosomal proteins however, reveals that some are degraded up to 35% in 15 min of thiolutin exposure, some to about 15% and some appear to be completely stable. In general, a degree of correlation exists between the stability of a given protein and the observed decay rate of its messenger RNA. This observation may explain in part the spread among the rates of mRNA decay. Nevertheless, we conclude that although degradation is occurring, it is not sufficient to alter the main conclusion that the rates of functional decay of mRNA cistrons coding for the ribosomal proteins are very similar.     

Thiolutin inhibits endothelial cell adhesion by perturbing Hsp27 interactions with components of the actin and intermediate filament cytoskeleton

Thiolutin is a dithiole synthesized by Streptomyces sp. that inhibits endothelial cell adhesion and tumor growth. We show here that thiolutin potently inhibits developmental angiogenesis in zebrafish and vascular outgrowth from tissue explants in 3D cultures. Thiolutin is a potent and selective inhibitor of endothelial cell adhesion accompanied by rapid induction of HSPB1 (Hsp27) phosphorylation. The inhibitory effects of thiolutin on endothelial cell adhesion are transient, potentially due to a compensatory increase in Hsp27 protein levels. Accordingly, heat shock induction of Hsp27 limits the anti-adhesive activity of thiolutin. Thiolutin treatment results in loss of actin stress fibers, increased cortical actin as cells retract, and decreased cellular F-actin. Mass spectrometric analysis of Hsp27 binding partners following immunoaffinity purification identified several regulatory components of the actin cytoskeleton that associate with Hsp27 in a thiolutin-sensitive manner including several components of the Arp2/3 complex. Among these, ArpC1a is a direct binding partner of Hsp27. Thiolutin treatment induces peripheral localization of phosphorylated Hsp27 and Arp2/3. Hsp27 also associates with the intermediate filament components vimentin and nestin. Thiolutin treatment specifically ablates Hsp27 interaction with nestin and collapses nestin filaments. These results provide new mechanistic insights into regulation of cell adhesion and cytoskeletal dynamics by Hsp27.     

EFFECTS OF BENLATE ON FERN GAMETOPHYTE DEVELOPMENT

The widely used fungicide, benlate, was tested for its effect(s) on gametophyte development in the fern Ceratopteris thalictroides (L.) Brongn. The active ingredient of benlate, benomyl, represents 50% of the fungicide by weight. Seven concentrations of benomyl were tested on C. thalictroides gametophytes: 0, 0.001, 0.01, 0.1, 1.0, 10.0 and 100 mg/l. Five developmental stages were observed for possible effects of benomyl. These were 1) germination, and the initiation of 2) antheridia, 3) notch meristems, 4) archegonia, and 5) sporophytes. Overall inhibition was greatest at 100 mg/l benomyl. At 10 mg/l and 100 mg/l, sporophyte initiation was completely blocked. This was probably the consequence of two characteristics found only on gametophytes growing on medium containing 10 mg/l and 100 mg/l benomyl. These characteristics were lack of sperm motility and production of callus growths in the areas proximal to the notch meristems, just proximal to the younger archegonia. Besides blocking the completion of sexual reproduction, the highest concentrations tested also produced smaller (cell number) and chlorotic gametophytes (especially at 100 mg/l). The bigametophyte population (made up of hermaphroditic and male gametophytes) was changed from 51% hermaphrodites (at 0 mg/l benomyl) to 26% hermaphrodites at 100 mg/l. This would, since only hermaphrodites possess archegonia, also decrease the potential for the production of sporophytes.     

Recombinaison apres hétérocaryose chez le champignon entomopathogènePaecilomyces fumosoroseus (Deutéromycète)

Résumé L'hétérocaryose chezPaecilomyces fumosoroseus (Wize) Brown & Smith est obtenue par anastomoses hyphales ou fusions protoplasmiques d'une souche auxotrophe résistante au benlate avec une autre souche auxotrophe. Après fusion il appara?t des recombinés stables. Cette méthode est envisagée pour l'amélioration génétique des champignons entomopathogènes.

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Summary Heterocaryosis inPaecilomyces fumosoroseus (Wize) Brown is possible by hyphal anastomosis or protoplast fusion of an auxotrophic benlate resistant strain and another auxotrophic strain. Recombination appears after heterocaryosis. This method is considered for the genetic improvment of entomogenous fungi. conseils et l'intérêt qu'il porte à mes recherches.

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Je remercie vivment Monsieur le ProfesseurChevaugeon de l'Université d'Orsay pour ses conseils et l'intérêt qu'il porte à mes recherches.     

Seed treatment for the control of halo-blight of beans (Pseudomonas phaseolicola)

Streptomycin and kasugamycin were applied as soaks, slurries or dusts to dwarf bean seeds either naturally (internally) infected or externally contaminated with Pseudomonas phaseolicola. Slurries of streptomycin (2–5 g a. i./kg seed) or kasugamycin (0–25 g a.i./kg seed) were the most effective treatments against both types of infection and were generally non-phytotoxic at these rates. Combined analysis of eight field experiments made over a 3 yr period showed that on average both compounds applied in slurries reduced primary infection from infected seeds by 98 %. The method thus shows considerable promise as a commercial control treatment.     

Regulation of biosynthesis of thiolutin and aureothricin inStreptomyces kasugaensis

l-Methionine anddl-ethionine decreased production of thiolutin and aureothricin inStreptomyces kasugaensis. In the presence ofl-methionine the culture also produced 3-methylthioacrylic acid, 3-methylthiopropionic acid and 3,6-bis-(2-methylthioethyl)-2,5-dioxopiperazine. Production of the metabolites depended on the concentration ofl-methionine in the medium.