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Archives of Microbiology (v.175, #5)
No Title by Stephanie E. Curtis; Pratibha B. Hebbar (pp. 313-322).
A plasmid library of small genomic fragments from the cyanobacterium Anabaena sp. strain PCC 7120 was screened for sequences whose transcripts increase in abundance during a heterocyst development time course. A total of 350 clones were analyzed, representing 1–2% of the Anabaena sp. strain PCC 7120 genome. Twenty-seven clones (8%) showed some degree of up-regulation after nitrogen starvation. The increase in transcript abundance ranged from 1.2-fold to 3.5-fold. Further analysis of the expression of some of the sequences using Northern blots suggested that the up-regulation values calculated from the screen are underestimates. The collection of up-regulated clones includes novel genes, previously characterized genes, and genes identifiable by similarity to known genes. One of the novel genes has been shown to be required for heterocyst function, and the sequence similarities and expression patterns of some of the others suggest that they may play a role in heterocyst development.
Keywords: Anabaena sp. strain PCC 7120 Cyanobacteria Heterocyst development Nitrogen starvation Genome screening Up-regulated genes
No Title by Marios Galeros; Katherine-Maria Pappas; Evangelos Beletsiotis; Milton A. Typas (pp. 323-333).
A new insertion sequence, designated ISZm1068, was isolated from Zymomonas mobilis strain CP4. This element consists of 1,068 bp and contains one major ORF which shows similarities both at the nucleotide and at the amino acid sequence level with the corresponding ORFs encoding the transposases of many IS5 family elements, in particular the IS1031 group. Moreover, the Z. mobilis ORF shares the conserved N2, N3 and C1 signature motifs of the IS4 and IS5 families. Six out of seven Z. mobilis wild-type strains were shown by hybridisation to contain a single copy of the ISZm1068 element. Nucleotide sequences of the insertion elements from these strains exhibited extremely high levels of identity, varying from 94.25 to 99.25%. ISZm1068 was shown to be active in Escherichia coli cells and led to plasmid replicon fusions within the host cell. Sequence analysis of rare cointegration and resolution derivatives suggests that ISZm1068 has putative imperfect inverted repeats at its extremities of 18 bp (IR-right) and 14 bp (IR-left), and that a 3-bp (5′-TCA-3′) target sequence is duplicated upon insertion.
Keywords: Zymomonas mobilis Insertion sequence IS5 family Strain construction
No Title by Yolanda Sanz; Frank C. Lanfermeijer; Pierre Renault; Alexander Bolotin; Wil N. Konings; Bert Poolman (pp. 334-343).
The genes encoding a binding-protein-dependent ABC transporter for dipeptides (Dpp) were identified in Lactococcus lactis subsp. cremoris MG1363. Two (dppA and dppP) of the six ORFs (dppAdppPBCDF) encode proteins that are homologous to peptide- and pheromone-binding proteins. The dppP gene contains a chain-terminating nonsense mutation and a frame-shift that may impair its function. The functionality of the dpp genes was proven by the construction of disruption mutants via homologous recombination. The expression of DppA and various other components of the proteolytic system was studied in synthetic and peptide-rich media and by using isogenic peptide-transport mutants that are defective in one or more systems (Opp, DtpT, and/or Dpp). In peptide-rich medium, DppA was maximally expressed in mutants lacking Opp and DtpT. DppA expression also depended on the growth phase and was repressed by tri-leucine and tri-valine. The effect of tri-leucine on DppA expression was abolished when leucine was present in the medium. Importantly, the Dpp system also regulated the expression of other components ofthe proteolytic system. This regulation was achieved via the internalization of di-valine, which caused a 30–50% inhibition in the expression of the proteinase PrtP and the peptidases PepN and PepC. Similar to the regulation of DppA, the repressing effect was no longer observed when high concentrations of valine were present. The intricate regulation of the components of the proteolytic system by peptides and amino acids is discussed in the light of the new and published data.
No Title by Oda Steenhoudt; Veerle Keijers; Yaacov Okon; Jos Vanderleyden (pp. 344-352).
The Azospirillum brasilense Sp245 napABC genes, encoding nitrate reductase activity, were isolated and sequenced. The derived protein sequences are very similar throughout the whole Nap segment to the NapABC protein sequences of Escherichia coli, Pseudomonas sp. G-179, Ralstonia eutropha, Rhodobacter sphaeroides, and Paracoccus denitrificans. Based on whole-cell nitrate reductase assays with the artificial electron donors benzyl viologen and methyl viologen, and assays with periplasmic cell-free extracts, it was concluded that the napABC-encoded enzyme activity in Azospirillum brasilense Sp245 corresponds to a periplasmic dissimilatory nitrate reductase, which was expressed under anoxic conditions and oxic conditions. A kanamycin-resistant Azospirillum brasilense Sp245 napA insertion mutant was constructed. The mutant still expressed assimilatory nitrate reductase activity, but was devoid of its periplasmic dissimilatory nitrate reductase activity.
Keywords: Azospirillum brasilense Periplasmic nitrate reductase Membrane-bound nitrate reductase napABC napA mutant
No Title by Claudia Engemann; Thomas Elssner; Hans-Peter Kleber (pp. 353-359).
Two proteins, component I (CI) and component II (CII), catalyze the biotransformation of crotonobetaine to L(–)-carnitine in Proteus sp. CI was purified to electrophoretic homogeneity from cell-free extracts of Proteus sp. The N-terminal amino acid sequence of CI showed high similarity (80%) to the caiB gene product from Escherichia coli O44K74, which encodes the L(–)-carnitine dehydratase. CI alone was unable to convert crotonobetaine into L(–)-carnitine even in the presence of the cosubstrates crotonobetainyl-CoA or γ-butyrobetainyl-CoA, which are essential for this biotransformation. The relative molecular mass of CI was determined to be 91.1 kDa. CI is composed of two identical subunits of molecular mass 43.6 kDa. The isoelectric point is 5.0. CII was purified to electrophoretic homogeneity from cell-free extracts of Proteus sp. and its N-terminal amino acid sequence showed high similarity (75%) to the caiD gene product of E. coli O44K74. The relative molecular mass of CII was shown to be 88.0 kDa, and CII is composed of three identical subunits of molecular mass 30.1 kDa. The isoelectric point of CII is 4.9. For the biotransformation of crotonobetaine to L(–)-carnitine, the presence of CI, CII, and a cosubstrate (crotonobetainyl-CoA or γ-butyrobetainyl-CoA) were shown to be essential.
Keywords: Carnitine metabolism Crotonobetaine hydration CoA derivatives Protein purification Proteus sp.
No Title by Christopher Bräsen; Peter Schönheit (pp. 360-368).
The halophilic archaea Halococcus (Hc.) saccharolyticus, Haloferax (Hf.) volcanii, and Halorubrum (Hr.) saccharovorum were found to generate acetate during growth on glucose and to utilize acetate as a growth substrate. The mechanisms of acetate formation from acetyl-CoA and of acetate activation to acetyl-CoA were studied. Hc. saccharolyticus, exponentially growing on complex medium with glucose, formed acetate and contained ADP-forming acetyl-CoA synthetase (ADP-ACS) rather than acetate kinase and phosphate acetyltransferase or AMP-forming acetyl-CoA synthetase. In the stationary phase, the excreted acetate was completely consumed, and cells contained AMP-forming acetyl-CoA synthetase (AMP-ACS) and a significantly reduced ADP-ACS activity. Hc. saccharolyticus, grown on acetate as carbon and energy source, contained only AMP-ACS rather than ADP-ACS or acetate kinase. Cell suspensions of Hc. saccharolyticus metabolized acetate only when they contained AMP-ACS activity, i.e., when they were obtained after growth on acetate or from the stationary phase after growth on glucose. Suspensions of exponential glucose-grown cells, containing only ADP-ACS but not AMP-ACS, did not consume acetate. Similar results were obtained for the phylogenetic distantly related halophilic archaea Hf. volcanii and Hf. saccharovorum. We conclude that, in halophilic archaea, the formation of acetate from acetyl-CoA is catalyzed by ADP-ACS, whereas the activation of acetate to acetyl-CoA is mediated by an inducible AMP-ACS.
Keywords: Halophilic archaea Acetate formation Acetate activation ADP-forming acetyl-CoA synthetase AMP-forming acetyl-CoA synthetase Acetate kinase Phosphate acetyltransferase
No Title by Micha J. Rijkenberg; Remco Kort; Klaas J. Hellingwerf (pp. 369-375).
From cultures of the anoxygenic phototroph Halorhodospira halophila SL-1, an aerobic, gram-negative spirillum was isolated. This moderately halophilic, alkaliphilic bacterium was motile by means of a single polar flagellum. It is described here as Alkalispirillum mobile gen. nov., spec. nov. Phylogenetic analysis of the Alkalispirillum mobile 16S rRNA gene led to its classification in the γ-subclass of the Proteobacteria, as it appears closely related to phototrophic purple sulfur bacteria of the genera Ectothiorhodospira and Halorhodospira. Surprisingly, A. mobile is an obligate aerobe. The organism grows optimally with a number of carboxylic acids (such as sodium acetate) as carbon source, at 2% (i.e. approximately 0.34 M) sodium chloride, at pH 9–10, and at temperatures ranging from 35 to 38 °C. The dominant cellular fatty acids of Alkalispirillum mobile are C12:0, C16:0, C18:1 cis 11, and C18:0; its G+C content is 66.2±0.5 mol%.
Keywords: Ectothiorhodospira Halorhodospira Halophily Phylogeny Anoxygenic photosynthesis Purple-sulfur bacteria 16S rRNA genes
No Title by Tina Engelmann; Franz Kaufmann; Gabriele Diekert (pp. 376-383).
From 3-methoxyphenol-grown cells of Acetobacterium dehalogenans, an inducible enzyme was purified that mediated the transfer of the methyl groups of veratrol (1,2-dimethoxybenzene) to a corrinoid protein enriched from the same cells. In this reaction, veratrol was converted via 2-methoxyphenol to 1,2-dihydroxybenzene. The veratrol:corrinoid protein methyl transferase, designated MTIver, had an apparent molecular mass of about 32 kDa. With respect to the N-terminal amino acid sequence and other characteristics, MTIver is different from the vanillate:corrinoid protein methyl transferase (MTIvan) isolated earlier from the same bacterium. For the methyl transfer from veratrol to tetrahydrofolate, two additional protein fractions were required, one of which contained a corrinoid protein. This protein was not identical with the corrinoid protein of the vanillate O-demethylase system. However, the latter corrinoid protein could also serve as methyl acceptor for the veratrol:corrinoid protein methyl transferase. MTIver catalyzed the demethylation of veratrol, 3,4-dimethoxybenzoate, 2-methoxyphenol, and 3-methoxyphenol. Vanillate (3-methoxy-4-hydroxybenzoate), 2-methoxybenzoate, or 4-methoxybenzoate could not serve as substrates.
Keywords: Acetobacterium dehalogenans Corrinoid protein Ether cleavage Methyl transferase O-demethylase Vanillate demethylation Veratrol demethylation
No Title by Daniel De Vos; Magali De Chial; Christel Cochez; Silke Jansen; Burkhard Tümmler; Jean-Marie Meyer; Pierre Cornelis (pp. 384-388).
The lungs of cystic fibrosis patients are frequently colonized by Pseudomonas aeruginosa, which produces high-affinity fluorescent peptidic siderophores, pyoverdines. Three pyoverdines which differ in their peptide chain and are easily differentiated by isoelectric focusing exist, only one being produced by a given strain. P. aeruginosa isolates from cystic fibrosis patients of a German hospital were analyzed by sequential, pulse-field gel electrophoresis (PFGE) and for pyoverdine production and type. Only producers of type I and type II pyoverdine were found. There was a perfect correlation between the type of pyoverdine produced and the clonality determined by PFGE. PFGE clone C, the most prevalent among cystic fibrosis patients, and found in an aquatic environment, produced type II pyoverdine. Pyoverdine-negative mutants seemed to increase as a function of the lung colonization time, but retained the capacity to take up pyoverdines. Most isolates that took up type II pyoverdine were also able to utilize type I pyoverdine as judged by growth stimulation experiments. No correlation was observed between the loss of pyoverdine production and mucoidy.
Keywords: Pseudomonas aeruginosa Cystic fibrosis Pyoverdines