ECDC--a totally integrated and interactively usable genetic map of Escherichia coli K12

Cold stress induced high molecular weight membrane polypeptides are responsible for cold tolerance in Rhizobium DDSS69

Cold stress induces a lag phase in the growth cycle of Rhizobium DDSS69. Two cold sensitive mutants of DDSS69 were generated through Tn5 tagged mutagenesis. These mutants do not grow below 15 degrees C but show a growth curve comparable with the wild type grown at 5 degrees C. There is a rapid induction of two high molecular weight membrane polypeptides of 135 and 119 kDa within 15 min of exposure to 5 degrees C in DDSS69. PAGE membrane protein profiles of stressed and non-stressed cells reveal differential regulation of genes. At 15 degrees C both mutants lack the high molecular weight polypeptides, suggesting a role in alleviation of cold stress.

Citrate synthase and 2-methylcitrate synthase: structural, functional and evolutionary relationships

Following the complete sequencing of the Escherichia coli genome, it has been shown that the proposed second citrate synthase of this organism, recently described by the authors, is in fact a 2-methylcitrate synthase that possesses citrate synthase activity as a minor component. Whereas the hexameric citrate synthase is constitutively produced, the 2-methylcitrate synthase is induced during growth on propionate, and the catabolism of propionate to succinate and pyruvate via 2-methylcitrate is proposed. The citrate synthases of the psychrotolerant eubacterium DS2-3R, and of the thermophilic archaea Thermoplasma acidophilum and Pyrococcus furiosus, are approximately 40% identical in sequence to the Escherichia coli 2-methylcitrate synthase and also possess 2-methylcitrate synthase activity. The data are discussed with respect to the structure, function and evolution of citrate synthase and 2-methylcitrate synthase.

Constricted flux through the branched-chain amino acid biosynthetic enzyme acetolactate synthase triggers elevated expression of genes regulated by rpoS and internal acidification

The first common enzyme of isoleucine and valine biosynthesis, acetolactate synthase (ALS), is specifically inhibited by the herbicide sulfometuron methyl (SM). To further understand the physiological consequences of flux alterations at this point in metabolism, Escherichia coli genes whose expression was induced by partial inhibition of ALS were sought. Plasmid-based fusions of random E. coli DNA fragments to Photorhabdus luminescens luxCDABE were screened for bioluminescent increases in actively growing liquid cultures slowed 25% by the addition of SM. From more than 8,000 transformants, 12 unique SM-inducible promoter-lux fusions were identified. The lux reporter genes were joined to seven uncharacterized open reading frames, f253a, f415, frvX, o513, o521, yciG, and yohF, and five known genes, inaA, IdcC, osmY, poxB, and sohA. Inactivation of the rpoS-encoded sigma factor, sigmaS, reduced basal expression levels of six of these fusions 10- to 200-fold. These six genes defined four new members of the sigmaS regulon, f253a, IdcC, yciG, and yohF, and included two known members, osmY and poxB. Furthermore, the weak acid salicylate, which causes cytoplasmic acidification, also induced increased bioluminescence from seven SM-inducible promoter-lux fusion-containing strains, namely, those with fusions of the sigmaS-controlled genes and inaA. The pattern of gene expression changes suggested that restricted ALS activity may result in intracellular acidification and induction of the sigmaS-dependent stress response.

Compilation of DNA sequences of Escherichia coli K12: description of the interactive databases ECD and ECDC

We have compiled the DNA sequence data for Escherichia coli K12 available from the GenBank and EMBL data libraries and independently from the literature. We provide the most definitive version of the ECD Escherichia coli database now exclusively via the World Wide Web System (http://susi.bio.uni-giessen.de/ecdc.html ). Our database encloses the completed genome sequence recently published by two competing groups and an assembled set of all elder sequences. The organisation of the database allows precise physical location of each individual gene or regulatory region, even taking into consideration discrepancies in nomenclature. The WWW program allows to the user to branch into the original EMBL and SWISS-PROT datafiles. A number of links to other WWW servers dealing with E. coli is provided. A FASTA and BLAST search may be performed online. Besides the WWW format a flat file version may be obtained via ftp. A number of discrepancies between the two systematic sequence determinations and/or the literature have not yet been resolved. However, our database may serve as a reference source for resolution and/or the assignment of strain difference.

Differentiation of Erwinia amylovora strains by pulsed-field gel electrophoresis

Erwinia amylovora strains, isolated from several host plants in various geographic regions during different years, were analyzed by pulsed-field gel electrophoresis (PFGE) after digestion of the DNA from lysed, agar-embedded cells with rare-cutting restriction enzymes. The banding patterns obtained with enzyme XbaI digests revealed significant differences among strains from different areas. North American strains E9 and Ea-Rb, a Rubus strain, were highly divergent from other E. amylovora strains. French strains were different from central European and English strains. E. amylovora strains from central Europe and New Zealand had identical PFGE patters, as had strains from Egypt, Greece, and Turkey. PFGE of genomic DNA from American and English strains gave rise to dissimilar patterns. Patterns of some American strains resembled those from strains isolated in other parts of the world. The restriction fragment length polymorphisms observed by PFGE analysis can be used to group strains and may give hints about the course of distribution of the plant disease. From the sizes of the restriction fragments obtained, a molecular mass of approximately 4.5 Mb was calculated for the genome of E. amylovora.

Compilation of DNA sequences of Escherichia coli K12: description of the interactive databases ECD and ECDC (update 1996)

We have compiled the DNA sequence data forEscherichia coliavailable from the GenBank and EMBL data libraries and independently from the literature. We provide the most definitive version of the ECDEscherichia colidatabase now exclusively via the World Wide Web System: http://susi.bio.uni-giessen.de/usr/local/www/ html/ecdc.html . Our database encloses an assembled set of contiguous sequences. Each of these contigs compiles all available sequence information, including those derived from a variety of elder sequences. The organisation of the database allows precise physical location of each individual gene or regulatory region, even taking into consideration discrepancies in nomenclature. The WWW program allows to branch into the original EMBL and SWISSPROT datafiles. A number of links to other WWW servers is provided. A FASTA and BLAST search may be performed online. Besides the WWW format a flat file version may be obtained via ftp. The ftp version may also be obtained from the EMBL data library as part of the CD-ROM issue of the EMBL sequence database, which is released and updated every 3 months. After deletion of all detected overlaps a total of 3 588 706 individual bp has been determined up to the end of September 1996. This corresponds to a total of 77.09% of the entire E.coli chromosome consisting of approximately 4655 kb. About 479 kb (10.3%) are additionally available from Kyoto (Japan). Another 94 kb (2%) are available, but mapping has not been confirmed. Thus the total may have reached 89.4%.

Polynucleotide phosphorylase of Escherichia coli is required for the establishment of bacteriophage P4 immunity

Bacteriophage P4's superinfection immunity mechanism is unique among those of other known bacteriophages in several respects: (i) the P4 immunity factor is not a protein but a short, stable RNA (CI RNA); (ii) in the prophage the expression of the replication operon is prevented by premature transcription termination rather than by repression of transcription initiation; (iii) transcription termination is controlled via RNA-RNA interactions between the CI RNA and two complementary target sequences on the nascent transcript; and (iv) the CI RNA is produced by processing of the same transcript it controls. It was thought that several host-encoded factors may participate in the molecular events required for P4 immunity expression, i.e., RNA processing, RNA-RNA interactions, and transcription termination. To identify such factors we searched for Escherichia coli mutations that affect P4 lysogenization. One such mutation, bfl-1, severely reduced P4's lysogenization frequency and delayed both the disappearance of the long transcripts that cover the entire replication operon and the appearance of the CI RNA. By physical mapping and genetic analysis we show that bfl-1 is allelic to pnp, which codes for polynucleotide phosphorylase, a 3'-to-5' exonucleolytic enzyme. A previously isolated pnp null mutant (pnp-7) exhibited a phenotype similar to that of bfl-1. These results indicate that the polynucleotide phosphorylase of E. coli is involved with the maturation pathway of bacteriophage P4's RNA immunity factor.

In vitro selection of preferred DNA pairing sequences by the Escherichia coli RecA protein

The RecA protein and other DNA strand exchange proteins are characterized by their ability to bind and pair DNA in a sequence-independent manner. In vitro selection experiments demonstrate, unexpectedly, that RecA protein has a preferential affinity for DNA sequences rich in GT composition. Such GT-rich sequences are present in loci that display increased recombinational activity in both eukaryotes and prokaryotes, including the Escherichia coli recombination hotspot, chi (5'-GCTGGTGG-3'). Interestingly, these selected sequences, or chi-containing substrates, display both an enhanced rate and extent of homologous pairing in RecA protein-dependent homologous pairing reactions. Thus, the binding and pairing of DNA by RecA protein is composition-dependent, suggesting that a component of the elevated recombinational activity of chi and increased genomic rearrangements at certain DNA sequences in eukaryotes is contributed by enhanced DNA pairing activity.

Compilation of DNA sequences of Escherichia coli K12 (ECD and ECDC; update 1995)

We have compiled the DNA sequence data for Escherichia coli available from the GenBank and EMBL data libraries and independently from the literature. Unlike the previous updates of our E.coli databases, we provide the most recent version preferentially via the World Wide Web System (use URL: http://susi.bio.unigiessen.de/usr/local/www++ +/html/ecdc.html). Our database includes an assembled set of contiguous sequences. Each of these contigs compiles all available sequence information, including those derived from a variety of elder sequences. The organization of the database allows one to find the exact physical location of each individual gene or regulatory region, even regarding discrepancies in nomenclature. The WWW program allows access into the original EMBL and SWISSPROT datafiles. A FASTA and BLAST search may be performed online. Besides the WWW format a flat file version may be obtained via ftp. The complete compilation, including a full set of genetic map data and the E.coli protein index, can be obtained in machine readable form from the EMBL data library as a part of the CD-ROM issue of the EMBL sequence database, released and updated every three months. After deletion of all detected overlaps a total of 3 333 878 individual bp was determined by the end of September 1995. This corresponds to a total of 71.71% of the entire E.coli chromosome consisting of about 4720 kbp. About 94 kbp (2%) are available additionally, but have not yet been definitely mapped.