Showing papers in "Journal of Bacteriology in 1982"

Relationship between temperature and growth rate of bacterial cultures.

Abstract: The Arrhenius Law, which was originally proposed to describe the temperature dependence of the specific reaction rate constant in chemical reactions, does not adequately describe the effect of temperature on bacterial growth. Microbiologists have attempted to apply a modified version of this law to bacterial growth by replacing the reaction rate constant by the growth rate constant, but the modified law relationship fits data poorly, as graphs of the logarithm of the growth rate constant against reciprocal absolute temperature result in curves rather than straight lines. Instead, a linear relationship between in square root of growth rate constant (r) and temperature (T), namely, square root = b (T - T0), where b is the regression coefficient and T0 is a hypothetical temperature which is an intrinsic property of the organism, is proposed and found to apply to the growth of a wide range of bacteria. The relationship is also applicable to nucleotide breakdown and to the growth of yeast and molds.

Physical and genetic characterization of symbiotic and auxotrophic mutants of Rhizobium meliloti induced by transposon Tn5 mutagenesis

Abstract: We have physically and genetically characterized 20 symbiotic and 20 auxotrophic mutants of Rhizobium meliloti, the nitrogen-fixing symbiont of alfalfa (Medicago sativa), isolated by transposon Tn5 mutagenesis. A "suicide plasmid" mutagenesis procedure was used to generate TN-5-induced mutants, and both auxotrophic and symbiotic mutants were found at a frequency of 0.3% among strains containing random TN5 insertions. Two classes of symbiotic mutants were isolated: 4 of the 20 formed no nodules at all (Nod-), and 16 formed nodules which failed to fix nitrogen (Fix-). We used a combination of physical and genetic criteria to determine that in most cases the auxotrophic and symbiotic phenotypes could be correlated with the insertion of a single Tn5 elements. Once the Tn5 element was inserted into the R. meliloti genome, the frequency of its transposition to a new site was approximately 10-8 and the frequency of precise excision was less than 10-9. In approximately 25% of the mutant strains, phage Mu DNA sequences, which originated from the suicide plasmid used to generate the Tn5 transpositions, were also found in the R. meliloti genome contiguous with Tn5. These later strains exhibited anomalous conjugation properties, and therefore we could not correlate the symbiotic phenotype with a Tn5 insertion. In general, we found that both physical and genetic tests were required to fully characterize transposon-induced mutations.

Nucleotide sequence and functional map of pC194, a plasmid that specifies inducible chloramphenicol resistance.

Abstract: The nucleotide sequence of pC194, a small plasmid from Staphylococcus aureus which is capable of replication in Bacillus subtilis, has been determined. The genetic determinant of chloramphenicol (CAM) resistance, which includes the chloramphenicol acetyl transferase (CAT) structural gene, the putative promoter and controlling element of this determinant, have been mapped functionally by subcloning a 1,035-nucleotide fragment which specifies the resistance phenotype using plasmid pBR322 as vector. Expression of CAM resistance is autogenously regulated since the 1,035-nucleotide fragment containing the CAT gene sequence and its promoter cloned into pBR322 expresses resistance inducibly in the Escherichia coli host. A presumed controlling element of CAT expression consists of a 37-nucleotide inverted complementary repeat sequence that is located between the -10 and ribosome-loading sequences of the CAT structural gene. Whereas the composite plasmid containing the minimal CAT determinant cloned in pBR322 could not replicate in B. subtilis, ability to replicate in B. subtilis was seen if the fragment cloned included an extension consisting of an additional 300 nucleotides beyond the 59 end of the single pC194 MspI site associated with replication. This 59 extension contained a 120-nucleotide inverted complementary repeat sequence similar to that found in pE194 TaqI fragment B which contains replication sequences of that plasmid. pC194 was found to contain four opening reading frames theoretically capable of coding for proteins with maximum molecular masses, as follows: A, 27,800 daltons; B, 26,200 daltons; C, 15,000 daltons; and D, 9,600 daltons. Interruption or deletion of either frame A or D does not entail loss of ability to replicate or to express CAM resistance, whereas frame B contains the CAT structural gene and frame C contains sequences associated with plasmid replication.

Nucleotide sequence and functional map of pE194, a plasmid that specifies inducible resistance to macrolide, lincosamide, and streptogramin type B antibodies.

Abstract: pE194 is a small plasmid (isolated originally in Staphylococcus aureus) which confers erythromycin-inducible resistance to macrolide, lincosamide, and streptogramin type B (MLS) antibiotics. The nucleotide sequence of pE194 contains 3,728 base pairs (bp), corresponding to a molecular mass of 2.4 million daltons. By means of site-specific cleavage with restriction endonucleases and cloning resultant fragments, determinants of the two major biological functions of p E194, i.e., inducible MLS resistance and replication, could be localized and assigned to specific sequences in the plasmid. Restriction endonuclease TaqI cut pE194 at three sites. TaqI fragment A (1,443 bp) contained the determinant for inducible MLS resistance, whereas TaqI fragment B (1,354 bp) contained a determinant necessary for plasmid replication. Regulatory mutations resulting in constitutive expression of MLS resistance mapped in TaqI fragment A, whereas a mutation associated with elevated plasmid copy number was mapped in TaqI fragment B. Also mapping in TaqI fragment B was a plasmid replication determinant comprising two sets of inverted complementary repeat sequences, one of which spanned 124 bp and was adjacent to a second smaller set which was rich in guanine and cytosine residues. pE194 contained six open reading frames which were theoretically capable of coding for proteins with maximum molecular masses as follows (in daltons): A, 48,300; B, 29,200; C, 14,000; D, 13,900; E, 12,600; and F, 2,700. Insertion of plasmid pBR322 into the single PstI site located in frame A of pE194 resulted in a composite plasmid which could replicate in both Bacillus subtilis and Escherichia coli, suggesting that an intact polypeptide A is dispensable for both replication of pE194 and for MLS resistance. Frame B specified inducible MLS resistance, whereas frame F specified the putative peptide associated with the proposed B determinant translational attenuator. The extent to which frames C, D, and E, all contained in TaqI fragment B, were translated into polypeptide products is not known; however, a base change in frame E was found in a comparison between the high-copy-number mutant, cop-6, and the wild-type strains.

Isolation and behavior of Escherichia coli deletion mutants lacking chemotaxis functions.

Abstract: Six Escherichia coli che loci (cheA,-B,-R,-W,-Y, and Z) are located in two adjacent operons that map at minute 42 on the chromosome. Point mutants defective in any of these six functions have aberrant swimming patterns and are generally nonchemotactic. Deletions within the two major che gene operons were isolated in order to examine epistatic interactions among these genes. We first constructed a specialized transducing phage (lambda che22), which carries both of the che operons and their associated promoters. Deleted lambda che22 derivatives were selected by chelating agent inactivation, and these derivatives were characterized by mapping them against a series of host strains with point mutations. Representative nonpolar deletions were then transferred into the E. coli chromosome by homologous recombination. Although the phenotype of cheR mutants (smooth swimming) was expected to be epistatic to that of cheB mutants (tumbly swimming), we found that deletion mutants lacking both of these functions exhibited frequent directional changes or tumbling episodes as they swam. An examination of larger deletions indicated that both the cheA-cheW and cheY-cheZ functions were required for the anomalous tumbling behavior observed in these mutants. Loss of the cheB function was also correlated with an inverted behavioral response to sodium acetate, a strong repellent of wild-type cells. These findings indicate that an important component of the signal transducing machinery may be altered in cheB mutants.

Possible mechanism for flocculation interactions governed by gene FLO1 in Saccharomyces cerevisiae.

Abstract: A model is proposed for the mechanism of flocculation interactions in yeasts in which flocculent cells have a recognition factor which attaches to alpha-mannan sites on other cells. This factor may be governed by the expression of the single, dominant gene FLO1. Isogenic strains of Saccharomyces cerevisiae, differing only at FLO1 and the marker genes ade1 and trp1, were developed to examine the components involved in flocculene. Electron microscopy and concanavalin Aferritin labeling of aggregated cells showed that extensive and intense interactions between cell wall mannan layers mediated cell aggregation. The components of the mannan layer essential for flocculence were Ca2+ ions, alpha-mannan carbohydrates, and proteins. By studying the divalent cation dependence at various pH values and in the presence of competing monovalent cations, flocculation was found to be Ca2+ dependent; however, Mg2+ and Mn2+ ions substituted for Ca2+ under certain conditions. Reversible inhibition of flocculation by concanavalin A and succinylated concanavalin A implicated alpha-branched mannan carbohydrates as one essential component which alone did not determine the strain specificity of flocculence, since nonflocculent strains interacted with and competed for binding sites on flocculent cells. FLO1 may govern the expression of a proteinaceous, lectin-like activity, firmly associated with the cell walls of flocculent cells, which bind to the alpha-mannan carbohydrates of adjoining cells. It was selectively and irreversibly inhibited by proteolysis and reduction of disulfide bonds. The potential of this system as a model for the genetic and biochemical control of cell-cell interactions is discussed.

Melanin-lacking mutants of Cryptococcus neoformans and their virulence for mice.

Abstract: A double mutant of Cryptococcus neoformans which lacked the ability to produce melanin (Mel-) on media containing diphenols and failed to grow at 37 degrees C (temperature sensitive, Tem-) was obtained by UV irradiation and subsequent cloning The mutant showed two lesions in melanogenesis in that it lacked the active transport system for diphenolic compounds and also lacked phenoloxidase Ultrastructures of the mutant and wild-type cells grown on a medium with or without L-dopa showed that only the wild-type cells grown on L-dopa medium formed a dark cell wall layer, presumably containing melanin The mutant was crossed with a wild type, and the phenotypes of the progeny were analyzed The analysis showed no linkage between the mating type and either Mel or Tem loci, but loose linkage was seen between Mel and Tem loci The progeny, Mel+ Tem+, Mel+ Tem-, Mel- Tem+, and Mel- Tem-, were studied for their virulence in mice Only Mel+ Tem+ types killed mice with an inoculum of 5 X 10(5) cells within 50 days Images

Nitrate reductase in Escherichia coli K-12: involvement of chlC, chlE, and chlG loci.

Abstract: We examined the properties of mutants of E. coli which are defective with respect to nitrate reductase activity. chlE::Mu cts and chlG::Mu cts mutants were all chlorate resistant, and the strains that we examined all synthesized nitrate reductase apoenzyme. We concluded that the chlE and chlG loci, like the chlA, chlB, and chlD loci, are involved in the synthesis of insertion of molybdenum cofactor. We identified at least four distinct phenotypic classes of chlC::Tn10 mutants, all of which were fully or partially sensitive to chlorate. Two of these classes may represent lesions in the structural genes for nitrate reductase subunits A and C. Two other classes may be altered in the regulation of the expression of nitrate reductase or other anaerobic enzymes. We propose the mnemonic nar for naming individual genes within the chlC locus.

Effect of silver ions on transport and retention of phosphate by Escherichia coli.

Abstract: Silver ions inhibited phosphate uptake and exchange in Escherichia coli and caused efflux of accumulated phosphate as well as of mannitol, succinate, glutamine, and proline. The effects of Ag+ were reversed by thiols and, to a lesser extent, by bromide. In the presence of N-ethylmaleimide and several uncouplers, Ag+ failed to cause phosphate efflux, but still inhibited exchange of intracellular and extracellular phosphate, indicating an interaction at more than one site. It is unlikely that Ag+ caused metabolite efflux by acting solely as an uncoupler, as an inhibitor of the respiratory chain, or as a thiol reagent.

Permeability of Pseudomonas aeruginosa outer membrane to hydrophilic solutes.

Abstract: Pseudomonas aeruginosa is usually resistant to a wide variety of antibacterial agents, and it has been inferred, on the basis of indirect evidence, that this was due to the low permeability of its outer membrane. We determined the permeability of P. aeruginosa outer membrane directly, by measuring the rates of hydrolysis of cephacetrile, cephaloridine, and various phosphate esters by hydrolytic enzymes located in the periplasm. The permeability to these compounds was about 100-fold lower than in the outer membrane of Escherichia coli K-12. Also, we found that the apparent Km values for active transport of various carbon and energy source compounds were typically higher than 20 microM in P. aeruginosa, in contrast to E. coli in which the values are usually lower than 5 microM. These results also are consistent with the notion that the P. aeruginosa outer membrane indeed has a low permeability to most hydrophilic compounds and that this membrane acts as a rate limiting step in active transport processes with high Vmax values.

Nutrition and carbon metabolism of Methanococcus voltae.

Abstract: Methanococcus voltae is a heterotrophic, H2-oxidizing methanogenic bacterium. In complex medium, this bacterium has a doubling time of 1.2 h at its temperature optimum of 38 degrees C. In defined medium, optimal growth is obtained with 0.75 mM isoleucine, 0.75 mM leucine, 2.5 mM acetate, 5 mM NH4Cl, 84 mM MgSO4, 0.4 M NaCl, 1 mM CaCl2, 10 microM Fe2O3, and 0.2 microM NiCl2. In addition, pantothenate, sodium selenate, and cobalt stimulate growth. Optimal growth is obtained between pH 6.0 and 7.0 with either H2 or formate as the electron donor. The volatile fatty acids 2-methylbutyrate and isovalerate can substitute for isoleucine and leucine, respectively. Cellular carbon is derived from acetate (31%), isoleucine (22%), leucine (25%), and carbon dioxide (23%). The amino acids and fatty acids are incorporated almost exclusively into protein. A comparison of the incorporation of U-14C-amino acids and 1-14C-fatty acids indicated that the fatty acids are degraded during incorporation into cell protein. The distribution of carbon from the amino acids suggests that acetyl coenzyme A is not a major intermediate in the degradation of these compounds. Thus, M. voltae may convert isoleucine and leucine to other amino acids by a unique mechanism. The lipid carbon is derived largely from acetate. Thus, the isoprenoid lipids are synthesized de novo from acetate rather than by degradation of leucine. The carbon in the nucleic acids is derived from carbon dioxide (45%), the C-1 of acetate (25%), the C-2 of acetate (22%), and isoleucine and leucine (7%). This labeling pattern is consistent with known biochemical pathways.

Molecular basis for cytadsorption of Mycoplasma pneumoniae.

Abstract: Hemadsorbing (HA+) virulent Mycoplasma pneumoniae and spontaneously derived nonhemadsorbing (HA-) avirulent mutants were compared by biochemical and ultrastructural techniques in an attempt to understand the molecular basis for cytadsorption. Lactoperoxidase-catalyzed iodination of intact mycoplasmas indicated that both virulent and avirulent mycoplasmas displayed similar surface protein patterns. A specific external protein, P1 (molecular weight, 165,000), previously implicated as a major ligand mediating attachment, was readily detected in HA+ and HA- mycoplasma strains. However, immunoferritin electron microscopy, with monospecific antibody against P1, revealed that differences in P1 topography existed among these strains. Only virulent mycoplasmas exhibited high concentrations of P1 at the terminal organelle. Avirulent mycoplasmas which possessed P1 showed no P1 clustering at the terminus. Both virulent M. pneumoniae and avirulent P1-containing mutants possessed numerous less dense P1 regions along the mycoplasma surface. Not surprisingly, an HA- mutant lacking P1 exhibited only background immunoferritin labeling. Negative staining of intact mycoplasmas revealed a well-defined, naplike terminus (associated with P1 clusters) confined at the tip of virulent M. pneumoniae. Previous characterization of HA+ virulent and HA- avirulent strains of M. pneumoniae by one- and two-dimensional polyacrylamide gel electrophoresis suggests that identified groups of mycoplasma proteins, lacking in specific HA- mycoplasmas, regulate the physical arrangement of P1 and the ultrastructure of the terminus, thus influencing adherence to the respiratory epithelium and virulence.

Cloning of antibiotic resistance and nutritional genes in streptomycetes.

Abstract: Methodology which allows consistent shotgun cloning of streptomycete genes is presented. Parameters that increase transformation efficiency of Streptomyces lividans 66 were adjusted to generate reproducibly a population of cloned genes likely to represent the entire genome. Factors which influence the recovery of viable transformants include: growth phase of the mycelium, ionic and osmotic characteristics of the medium during protoplast formation and transformation, and moisture content and protoplast density during regeneration. A modified transformation procedure was devised which increased transformation frequency more than 20-fold (allowing up to 10(7) primary transformants per microgram of SLP1.2 covalently closed circular DNA) and greatly facilitated the cloning of drug resistance genes and biosynthetic genes, using one of two plasmid vectors. Viomycin resistance genes on BamHI or PstI fragments were cloned from S. vinaceus genomic DNA into S. lividans, using the SLP1.2 vector. At least three different S. vinaceus BamHI fragments (1.9, 5.8, or 8.5 kilobases) confer viomycin resistance; only one PstI fragment (4.3 kilobases) was found. Recombinant plasmids were all able to produce lethal zygosis and to be transferred by conjugation within S. lividans. SCP2 was used to clone S. coelicolor A3(2) genes that "complemented" the auxotrophic mutation hisD3, argA1, or guaA1. Recombinant DNA technology can now be applied to economically and academically interesting problems unique to streptomycete molecular biology.

Mapping of Streptococcus faecalis plasmids pAD1 and pAD2 and studies relating to transposition of Tn917.

Abstract: Plasmids pAD1 (37.8 megadaltons) and pAD2 (17.1 megadaltons) of Streptococcus faecalis strain DS16 have been mapped with restriction enzymes. The location of a hemolysin-bacteriocin determinant on the conjugative pAD1 plasmid was derived from analyses of transposon insertions. Electron microscope and hybridization analyses located Tn917(Em) and the streptomycin (Sm) and kanamycin (Km) resistance determinants on the nonconjugative pAD2 plasmid. It was shown previously that the erythromycin (Em) resistance associated with Tn917 is inducible and that transposition from pAD2 to pAD1 is also stimulated by exposure of cells to low concentrations of Em. Here we show that inducing concentrations of Em also increase the conjugative transfer potential of pAD1; this is possibly related to a mild and short-lived inhibitory stress placed on the cells before full induction of resistance. Selection of Em-resistant transconjugants arising from matings between DS16 and a plasmid-free recipient gave rise to transconjugants which primarily harbor stable pAD1::pAD2 cointegrates. A 30-min exposure of donors to Em (0.5 microgram/ml) before mating resulted in a severalfold increase in the number of such transconjugants. However, a small fraction (e.g., 3 of 40) of these Emr Smr Kmr transconjugants harbored pAD1::Tn917 and pAD2 molecules. Since we believe pAD2 is incapable of being mobilized by pAD1 without being covalently linked, it is likely that transfer in these cases involved cointegrates representing structural intermediates in the transposition of Tn917 from pAD2 to pAD1. It follows that such intermediates probably had two copies of Tn917 and readily resolved after transfer. (These cointegrates are different from the stable cointegrates which were shown to have only a single copy of Tn917; the latter are assumed not to be related to transposition.) Two variants with altered Tn917 transposition properties were derived. One of them transposed at an elevated frequency, whereas the other showed no detectabel transposition. In neither case was transposition influenced by Em exposure; however, both remained inducible for Em resistance. Images

Development of broad-host-range vectors and gene banks: self-cloning of the Pseudomonas aeruginosa PAO chromosome.

Abstract: A host-vector system for Pseudomonas aeruginosa PAO was developed. Scattered regions of the strain PAO chromosome were cloned by direct selection for complementation of auxotrophs or from a DNA gene bank which contains over 1,000 independently isolated chromosome-vector recombinant plasmids. The use of partially digested chromosomal DNA facilitated the selection of a variety of strain PAO chromosomal markers. The progenitor of the vector was a small, multicopy plasmid, pRO1600, found in a PAO strain which had acquired RP1 in a mating experiment. The bacterial host range that could be determined by transformation of vectors produced from pRO1600 resembles that for plasmid RP1. Two derivative plasmids were formed: pRO1613, for cloning DNA cleaved with restriction endonuclease PstI, and pRO1614, which was formed by deleting part of pRO1613 and fusion with plasmid pBR322. Plasmid pRO1614 utilizes known cloning sites within the tetracycline resistance region of pBR322.

Control of rRNA and tRNA syntheses in Escherichia coli by guanosine tetraphosphate.

Abstract: The expression of stable RNA (rRNA and tRNA) genes and the concentration of guanosine tetraphosphate (ppGpp) were measured in an isogenic pair of relA+ and relA derivatives of Escherichia coli B/r. The cells were either growing exponentially at different rates or subject to amino acid starvation when they were measured. The specific stable RNA gene activity (rs/rt, the rate of rRNA and tRNA synthesis relative to the total instantaneous rate of RNA synthesis) was found to decrease from 1.0 at a ppGpp concentration of 0 (extrapolated value) to 0.24 at saturating concentrations of ppGpp (above 100 pmoles per optical density at 460 nm unit of cell mass). The same relationship between the rs/rt ratio and ppGpp concentration was obtained independent of the physiological state of the bacteria (i.e., independent of the growth rate or of amino acid starvation) and independent of the relA allele. It can be concluded that ppGpp is an effector for stable RNA gene control and that stable RNA genes are not controlled by factors other than the ppGpp-mediated system. The results were shown to be qualitatively and quantitatively consistent with data on in vitro rRNA gene control by ppGpp, and they were interpreted in the light of reported ideas derived from those in vitro experiments.

Agrobacterium tumefaciens mutants affected in attachment to plant cells.

Abstract: An analysis of Agrobacterium tumefaciens mutants with Tn5 insertions in chromosomal DNA showed that the chromosome of A. tumefaciens codes for a specific ability of this bacterium to attach to plant cells. This ability is associated with tumorigenesis by A. tumefaciens, the ability of avirulent A. tumefaciens to inhibit tumorigenesis, and the ability to adsorb certain phages. A second class of chromosomal mutations affects tumorigenesis without altering the ability to attach to plant cells. The attachment of A. tumefaciens to plant cells was assayed by mixing radiolabeled bacteria with suspensions of tobacco tissue culture cells or freshly isolated Zinnia leaf mesophyll cells. Under the conditions of this assay, an avirulent Ti plasmid-cured strain attached to the same extent as the same strain containing pTiB6806. Six of eight avirulent mutants with Tn5 insertions in chromosomal DNA showed defective attachment, whereas two retained wild-type attachment ability. In contrast to the strains showing wild-type attachment, the attachment-defective mutants failed to inhibit tumorigenesis when inoculated onto Jerusalem artichoke slices before inoculation of a virulent strain and also showed a loss of sensitivity to two Agrobacterium phages. The loss of phage sensitivity appeared to be due to a loss of ability to adsorb the phages. Staining with Calcofluor indicated that the mutants retained the ability to synthesize cellulose fibrils, which have been implicated in the attachment process. Southern filter hybridizations demonstrated that each mutant contained a single Tn5 insertion, and genetic linkage between the Tn5 insertion in one mutant and the attachment phenotype has also been demonstrated.

Cloning and functional characterization of the plasmid-encoded hemolysin determinant of Escherichia coli.

Abstract: We cloned the DNA containing the Escherichia coli hemolysin determinant on a small, high-copy plasmid. We generated plasmids containing fragments of this DNA and used them either alone or in two-plasmid complementation systems to define the limits of the structural genes. This system also allowed us to partially characterize the function of each of the gene products in the production and transport of hemolysin. Taken with previously published data, the present experiments indicate the following. (i) At least three cistrons, hlyC, hlyA, and hlyB (these were previously designated cisC, etc. [Noegel et al., Mol. Gen. Genet. 175:343-350, 1979]), contain the specific genetic information for the hemolytic phenotype, (ii) hlyA encodes a 107,000-kilodalton protein, which seems to be an inactive precursor of hemolysin. (iii) Normal amounts of hemolysin activity inactive precursor of hemolysin. (iii) Normal amounts of hemolysin activity require only the products of hlyA and hlyC. This activity was found in the periplasm; very little hemolysin activity was found in the cytoplasm, suggesting that the hlyC product is required for transport or activation of the hlyA product or both. (iv) Active hemolysin remains in the periplasm in the absence of hlyB function, hence the hlyB product seems to be necessary for the transport of hemolysin to the exterior of the cell. We further show that overproduction of the hlyA product is lethal, probably causing lysis of the cell.

DHA system mediating aerobic and anaerobic dissimilation of glycerol in Klebsiella pneumoniae NCIB 418.

Abstract: In Klebsiella pneumoniae NCIB 418, the pathways normally responsible for aerobic growth on glycerol and sn-glycerol 3-phosphate (the glp system) are superrepressed. However, aerobic growth on glycerol can take place by the intervention of the NAD-linked glycerol dehydrogenase and the ATP-dependent dihydroxyacetone kinase of the dha system normally inducible only anaerobically by glycerol or dihydroxyacetone. Conclusive evidence that the dha system is responsible for both aerobic and anaerobic dissimilation of glycerol was provided by a Tn5 insertion mutant lacking dihydroxyacetone kinase. An enzymatically coupled assay specific for this enzyme was devised. Spontaneous reactivation of the glp system was achieved by selection for aerobic growth on sn-glycerol 3-phosphate or on limiting glycerol as the sole carbon and energy source. However, the expression of this system became constitutive. Aerobic operation of the glp system highly represses synthesis of the dha system enzymes by catabolite repression. Images

Cytoplasmic steps of peptidoglycan synthesis in Escherichia coli.

Abstract: The cellular pool levels of most of the cytoplasmic precursors of peptidoglycan synthesis were determined for normally growing cells of Escherichia coli K-12. In particular, a convenient method for analyzing the uridine nucleotide precursor contents was developed by associating gel filtration and reverse-phase high-pressure liquid chromatography techniques. The enzymatic parameters of the four synthetases which catalyze the stepwise addition of L-alanine, D-glutamic acid, meso-diaminopimelic acid, and D-alanyl-D-alanine to uridine diphosphate-N-acetylmuramic acid were determined. It was noteworthy that the pool levels of L-alanine, D-glutamic acid, meso-diaminopimelic acid, and D-alanyl-D-alanine were much higher than the Km values determined for these substrates, whereas the molar concentrations of the uridine nucleotide precursors were lower than or about the same order of magnitude as the corresponding Km values. Taking into consideration the data obtained, an attempt was made to compare the in vitro activities of the D-glutamic acid, meso-diaminopimelic acid, and D-alanyl-D-alanine adding enzymes with their in vivo functioning, expressed by the amounts of peptidoglycan synthesized. The results also suggested that these adding activities were not in excess in the cell under normal growth conditions, but their amounts appeared adjusted to the requirements of peptidoglycan synthesis. Under the different in vitro conditions considered, only low levels of L-alanine adding activity were observed.

Heterogeneity of tetracycline resistance determinants in Streptococcus.

Abstract: We found that naturally occurring tetracycline resistance in streptococci is encoded by more than one genetic determinant. Two of these distinct determinants were cloned, and the regions that are necessary and sufficient for expression of tetracycline resistance were defined by deletion analysis. These cloned determinants were further characterized by DNA-DNA hybridization experiments which also identified a third genetically unrelated tetracycline resistance determinant. Some of these genetic differences appear to represent mechanistic differences. The tetL determinant was associated with small nonconjugative plasmids and mediated resistance to tetracycline. The tetM determinant was most often "nonplasmid" associated and mediated resistance to minocycline as well as tetracycline. The tetN determinant was represented on a large conjugative plasmid and was genetically distinct from tetL and tetM, although phenotypically it resembled tetM.

Requirement of Fnr and NarL functions for nitrate reductase expression in Escherichia coli K-12.

Abstract: I used a chlC-lac operon fusion to study regulatory mutations which affect nitrate reductase expression in Escherichia coli. A NarL- mutant apparently lacks a nitrate-specific positive regulatory component. Furthermore, an fnr (nirR) mutation prevented enzyme induction under any conditions. These data are consistent with a two-step, positive control model for nitrate reductase regulation.

Oxidation of naphthalene by a multicomponent enzyme system from Pseudomonas sp. strain NCIB 9816.

Abstract: The initial reactions in the oxidation of naphthalene by Pseudomonas sp. strain NCIB 9816 involves the enzymatic incorporation of one molecule of oxygen into the aromatic nucleus to form (+)-cis-(1R,2S)-dihydroxy-1,2-dihydronaphthalene. The enzyme catalyzing this reaction, naphthalene dioxygenase, was resolved into three protein components, designated A, B, and C, by DEAE-cellulose chromatography. Incubation of naphthalene with components A, B, and C in the presence of NADH resulted in the formation of (+)-cis-(1R,2S)-dihydroxy-1,2-dihydronaphthalene. The ratio of oxygen and NADH utilization to product formation was 1:1:1. NADPH also served as an electron donor for naphthalene oxygenation. However, its activity was less than 50% of that observed with NADH. Component A showed NAD(P)H-cytochrome c reductase activity which was stimulated by the addition of flavin adenine dinucleotide and flavin mononucleotide. A similar stimulation was observed when these flavin nucleotides were added to the naphthalene dioxygenase assay system. These preliminary observations indicate that naphthalene dioxygenase has properties in common with both monooxygenase and dioxygenase multicomponent enzyme systems.

Mycolic Acid Composition and Thermally Adaptative Changes in Nocardia asteroides

Abstract: The nocardomycolic acid compositions of extractable and the cell wall-bound lipids from five strains of Nocardia asteroides (A-23007, A-23094, B-23006, B-23095, and IFO 3384) were compared by using gas chromatography-mass spectrometry. The molecular species composition of mycolic acid differed significantly among the strains of N. asteroides. The A-23007 strain possessed the shortest species, centering at C(44(46)), and the A-23094 and IFO-3384 strains followed, each centering at C(52). The B-23006 and B-23095 strains possessed the longest species, centering at C(56) or C(54), thus indicating that N. asteroides strains accommodate a heterogeneous group in respect to carbon numbers of mycolic acids. The doublebond isomers of mycolic acids from the representative strain IFO 3384 were fully separated and analyzed by argentation thin-layer chromatography, followed by gas chromatography-mass spectrometry. The reference strain (IFO 3384) possessed up to four double bonds on the straight chain of mycolic acids ranging from C(46) to C(60). All of the species possessed a C(14) alkyl branch at C-2. The more highly unsaturated subclasses consisted of the longer-chain mycolic acids. Marked changes in mycolic acid composition were induced by altering the growth temperature of strain IFO 3384. The cells grown at the higher temperature (50 degrees C) contained more saturated mycolic acids, whereas those grown at the lower temperature (17 degrees C) had more polyunsaturated (up to tetraenoic) mycolic acids, although a significant difference in carbon chain length was not detected. These changes in the degree of unsaturation of mycolic acids occurred shortly after shifting the growth temperature from 17 to 50 degrees C at logarithmic stages of the bacterial growth, thus indicating that N. asteroides can adapt to changes in the environmental temperature by altering the structure of mycolic acids of the cell walls.

Cloning of the chromosomal determinants encoding hemolysin production and mannose-resistant hemagglutination in Escherichia coli.

Abstract: We have cloned the chromosomal hemolysin determinants from Escherichia coli strains belonging to the four O-serotypes O4, O6, O18, and O75. The hemolysin-producing clones were isolated from gene banks of these strains which were constructed by inserting partial Sau3A fragments of chromosomal DNA into the cosmid pJC74. The hemolytic cosmid clones were relatively stable. The inserts were further subcloned either as SalI fragments in pACYC184 or as BamHI-SalI fragments in a recombinant plasmid (pANN202) containing cistron C (hlyC) of the plasmid-encoded hemolysin determinant. Detailed restriction maps of each of these determinants were constructed, and it was found that, despite sharing overall homology, the determinants exhibited minor specific differences in their structure. These appeared to be restricted to cistron A (hlyA), which is the structural gene for hemolysin. In the gene banks of two of these hemolytic strains, we could also identify clones which carried the genetic determinants for the mannose-resistant hemagglutination antigens Vb and VIc. Both of these fimbrial antigens were expressed in the E. coli K-12 clones to an extent similar to that observed in the wild-type strains. These recombinant cosmids were rather unstable, and, in the absence of selection, segregated at a high frequency.

Fruiting body morphogenesis in submerged cultures of Myxococcus xanthus.

Abstract: Induced by starvation, the development of fruiting bodies by Myxococcus xanthus on glass and plastic surfaces under a layer of liquid was followed microscopically. Calcium ions and a neutral pH were required for development of a Myxococcus strain that grew dispersed in liquid culture. Initially asymmetric aggregates later became round, and sporulation followed aggregation. Images

Genetic and molecular characterization of Tn21, a multiple resistance transposon from R100.1.

Abstract: Tge transposon Tn21 has been transposed from R100.1 to plasmid pACYC184 and, from the resulting recombinants, to plasmid R388. The sites of insertion and the orientation of the element in several pACYC184::Tn21 recombinants have been examined. Restriction enzyme analysis of these recombinants has resulted in a detailed map of Tn21; this is compared with the published maps of the relevant part of R100.1. Heteroduplex analysis has shown short inverted repeat sequences at the ends of the element. With various in vitro-generated deletion mutants of Tn21, the internal gene necessary for transposition (tnpA) was localized within the terminal 4.3 kilobases of the right-hand end of the element. Genetic analysis of transposition of Tn21 suggests that the process proceeds via cointegrates. Since the end products of transposition are simple recombinants of the element and the recipient replicon, Tn21 must contain a gene that codes for a resolvase type of activity (tnpR gene).

Specific mutator effects of ung (uracil-DNA glycosylase) mutations in Escherichia coli.

Abstract: Studies of trpA reversions revealed that G:C leads to A:T transitions were stimulated about 30-fold in E. coli ung mutants, whereas other base substitutions were not affected. A dUTPase (dut) mutation, which increases the incorporation of uracil into DNA in place of thymine, had no significant effect on the rate of G:C leads to A:T transitions. The results support the proposal that the glycosylase functions to reduce the mutation rate in wild-type cells by acting in the repair of DNA cytosine residues that have undergone spontaneous deamination to uracil. Further support was provided by the finding that when lambda bacteriophages were treated with bisulfite, an agent known to produce cytosine deamination, the frequency of clear-plaque mutants was increased an additional 20-fold by growth on an ung host. Bisulfite-induced mutations of the cellular chromosome, however, were about equal in ung+ and ung strains; it was found that during the treatment of ung+ cells with bisulfite, the glycosylase was inactivated.

Purification and properties of phytate-specific phosphatase from Bacillus subtilis.

Abstract: An enzyme which liberates Pi from myo-inositol hexaphosphate (phytic acid) was shown to be present in culture filtrates of Bacillus subtilis. It was purified until it was homogeneous by ultracentrifugation, but it still showed two isozymes on polyacrylamide gel electrophoresis. The enzyme differed from other previously known phytases in its metal requirement and in its specificity for phytate. It had a specific requirement for Ca2+ for its activity. The enzyme hydrolyzed only phytate and had no action on other phosphate esters tested. This B. subtilis phytase is the only known phytate-specific phosphatase. The products of hydrolysis of phytate by this enzyme were Pi and myo-inositol monophosphate. The enzyme showed optimum activity at pH 7.5. It was inhibited by Ba2+, Sr2+, Hg2+, Cd2+, and borate. Its activity was unaffected by urea, diisopropylfluorophosphate, arsenate, fluoride, mercaptoethanol, trypsin, papain, and elastase. Images

Cloning characterization of iaaM, a virulence determinant of Pseudomonas savastanoi.

Abstract: Genes for indoleacetic acid production (iaaM and iaaH) are necessary for gall induction by the olive pathogen Pseudomonas savastanoi. In strain 2009 these determinants are borne on plasmid pIAA1. To map and characterize the genes, fragments of pIAA1 generated by EcoRI endonuclease treatment were cloned in Escherichia coli by using plasmid RSF1010 as vector. We isolated a recombinant plasmid encoding iaaM, the locus for tryptophan 2-monooxygenase. This plasmid, called pLUC1, was characterized by restriction endonuclease hydrolysis. It contained a 2.75-kilobase-pair segment of pIAA1. By cloning this segment in the EcoRI site of pBR328 and pBRH3B we showed that efficient expression of iaaM was dependent on the orientation with respect to the vector promoters, and thus determined the direction of transcription. To more finely map iaaM and confirm the orientation of transcription, plasmid pLUC1 was subjected to transposon Tn/mutagenesis. The promoter-distal end of iaaM was mapped between coordinates at 1.7 and 2.15 kilobase pairs of the cloned segment.