B. Kammerer scite author profile

Carbamoyl phosphate is a precursor for both arginine and pyrimidine biosynthesis. In Lactobacillus plantarum, carbamoyl phosphate is synthesized from glutamine, ATP, and carbon dioxide by two sets of identified genes encoding carbamoyl phosphate synthase (CPS). The expression of the carAB operon (encoding CPS-A) responds to arginine availability, whereas pyrAaAb (encoding CPS-P) is part of the pyrR1BCAaAbDFE operon coding for the de novo pyrimidine pathway repressed by exogenous uracil. The pyr operon is regulated by transcription attenuation mediated by a trans-acting repressor that binds to the pyr mRNA attenuation site in response to intracellular UMP/phosphoribosyl pyrophosphate pools. Intracellular pyrimidine triphosphate nucleoside pools were lower in mutant FB335 (carAB deletion) harboring only CPS-P than in the wild-type strain harboring both CPS-A and CPS-P. Thus, CPS-P activity is the limiting step in pyrimidine synthesis. FB335 is unable to grow in the presence of uracil due to a lack of sufficient carbamoyl phosphate required for arginine biosynthesis. Forty independent spontaneous FB335-derived mutants that have lost regulation of the pyr operon were readily obtained by their ability to grow in the presence of uracil and absence of arginine; 26 harbored mutations in the pyrR1-pyrB loci. One was a prototroph with a deletion of both pyrR1 and the transcription attenuation site that resulted in large amounts of excreted pyrimidine nucleotides and increased intracellular UTP and CTP pools compared to wild-type levels. Low pyrimidine-independent expression of the pyr operon was obtained by antiterminator site-directed mutagenesis. The resulting AE1023 strain had reduced UTP and CTP pools and had the phenotype of a high-CO 2 -requiring auxotroph, since it was able to synthesize sufficient arginine and pyrimidines only in CO 2 -enriched air. Therefore, growth inhibition without CO 2 enrichment may be due to low carbamoyl phosphate pools from lack of CPS activity.

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Structure and organisation of the pyrimidine biosynthesis pathway genes in Lactobacillus plantarum: a PCR strategy for sequencing without cloning

Elagöz

Abdi

Hubert

et al. 1996

Gene

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Complete sequence of a eukaryotic regulatory gene.

Hubert¹,

Guyonvarch²,

Kammerer³

et al. 1983

The EMBO Journal

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Dihydroorotase, the third enzymatic activity of the pyrimidine pathway, is encoded in Saccharomyces cerevisiae by a single gene URA4, which is induced at the transcriptional level by accumulation of ureidosuccinic acid. A regulatory gene PPR2 (pyrimidine pathway regulatory 2) acting specifically on this step, has been characterized, cloned and sequenced. The main open reading frame is 384 nucleotides long and potentially codes for a basic protein, favoring a molecular mechanism involving direct binding of a regulatory protein to DNA. The short length of the PPR2 polypeptide chain and the presence of seven cysteine residues suggest that the active form of the protein is an oligomer assembled through disulphide bonds. An uninducible allele has been cloned and sequenced. The mutation corresponds to an A leads to T transversion changing a lysine triplet into an ochre codon. The uninducible phenotype of this mutant is completely suppressed by an ochre suppressor, strengthening the hypothesis that PPR2 acts on URA4 transcription through the synthesis of a regulatory protein.

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Cloning and analysis of the gene for the major outer membrane lipoprotein from Pseudomonas aeruginosa

Cornélis

Bouia

Belarbi

et al. 1989

Molecular Microbiology

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The gene for the Pseudomonas aeruginosa outer membrane lipoprotein I was isolated from a genomic library in the phage lambda EMBL3 vector and subsequently subcloned in the low copy-number, wide host-range plasmid vector, pKT240. The cloned gene was highly expressed, resulting in the production of a low molecular-weight protein (8 kD) that was found to be associated with the outer membrane. Sequence analysis showed an open reading frame of 83 amino acids with a putative N-terminal hydrophobic signal peptide of 19 residues immediately followed by the lipoprotein consensus sequence, GLY-CYS-SER-SER (residues 19-22). The predicted amino acid composition of the mature polypeptide and that of the purified lipoprotein I of P. aeruginosa (Mizuno and Kageyama, 1979) were identical. In contrast with other Gram-negative outer membrane lipoproteins, conformation predictions suggested that the mature protein was a single alpha helix.

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B. Kammerer

Repression of the pyr Operon in Lactobacillus plantarum Prevents Its Ability To Grow at Low Carbon Dioxide Levels

Structure and organisation of the pyrimidine biosynthesis pathway genes in Lactobacillus plantarum: a PCR strategy for sequencing without cloning

Complete sequence of a eukaryotic regulatory gene.

Cloning and analysis of the gene for the major outer membrane lipoprotein from Pseudomonas aeruginosa

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