Valia A. Norte scite author profile

The SlyA protein from Salmonella typhimurium is a transcription factor that contributes to virulence. It is shown that a slyA mutant is attenuated in the presence of murine macrophages compared with the parent strain. Moreover, after growth in minimal medium, survival of the slyA mutant was reduced. Altered levels of flagellin (fliC), PagC, IroN, and outer membrane proteins suggest that the slyA mutation affects the surface properties of Salmonella. The isolated SlyA protein is a cofactor-free homodimer that recognizes five sites within the promoter region of the slyA gene. One of these sites contained a near perfect inverted repeat TTAGCAAGCTAA. The other four sites contained related sequences. Occupation of the SlyA sites in the slyA promoter prevented open-complex formation, consistent with the pattern of slyA::lacZ expression parental and slyA mutant strains. By combining the footprinting data with potential SlyA binding sites recovered from a pool of random DNA sequences, a consensus was defined and used to probe the NIH Salmonella unfinished genomes data base. These searches revealed the presence of consensus SlyA sites upstream of omp, ispA, xseB, slyA, and a gene encoding a protein with homology to a hemagglutinin. Accordingly, transcription of an omp::lacZ fusion was reduced in a slyA mutant. Given the difficulties in obtaining a comprehensive picture of intracellular gene expression, the definition of the DNA sequence recognized by a transcription factor (SlyA) that is essential for survival in the macrophage environment should allow a complete regulon of genes with altered expression upon exposure to macrophages to be determined once the S. typhimurium genome annotation is complete.

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Regulation ofEscherichia coliHemolysin E Expression by H-NS andSalmonellaSlyA

Wyborn

Stapleton

Norte

et al. 2004

J Bacteriol

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The Escherichia coli hlyE gene (also known as clyA or sheA) codes for a novel pore-forming toxin. Previous work has shown that the global transcription factors FNR and CRP positively regulate hlyE expression by binding at the same site. Here in vivo transcription studies reveal that FNR occupies the hlyE promoter more frequently than CRP, providing a mechanism for the moderate upregulation of hlyE expression in response to two distinct environmental signals (oxygen and glucose starvation). It has been reported that H-NS interacts with two large regions of the hlyE promoter (PhlyE), one upstream of the ؊35 element and one downstream of the ؊10 element. Here we identify two high-affinity H-NS sites, H-NS I, located at the 3 end of the extended upstream footprint, and H-NS II, located at the 5 end of the extended downstream footprint. It is suggested that these high-affinity sites initiate the progressive formation of higher order complexes, allowing a range of H-NS-mediated regulatory effects at PhlyE. Finally, the identification of a SlyA binding site that overlaps the H-NS I site in PhlyE suggests a mechanism to explain how SlyA overproduction enhances hlyE expression by antagonizing the negative effects of H-NS.

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PhoP-Responsive Expression of theSalmonella entericaSerovar TyphimuriumslyAGene

2003

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The SlyA protein of Salmonella enterica serovar Typhimurium is a member of the MarR family of transcription regulators and is required for virulence and survival in professional macrophages. Isolated SlyA protein was able to bind a specific DNA target without posttranslational modification. This suggested that SlyA might not be activated by directly sensing an external signal but rather that the intracellular concentration of SlyA is enhanced in appropriate environments through the action of other transcription factors. Analysis of slyA transcription reveals the presence of a promoter region located upstream of the previously recognized SlyA repressed promoter. The newly identified upstream promoter region did not respond to SlyA but was activated by Mg(II) starvation in a PhoP-dependent manner. We present here evidence for a direct link between two transcription factors (PhoP and SlyA) crucial for Salmonella virulence.

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The crystal structures of Lactococcus lactis MG1363 Dps proteins reveal the presence of an N‐terminal helix that is required for DNA binding

Stillman

Upadhyay

Norte

et al. 2005

Molecular Microbiology

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A study of branched‐chain amino acid aminotransferase and isolation of mutations affecting the catabolism of branched‐chain amino acids in Saccharomyces cerevisiae

Dickinson

Norte

1993

FEBS Letters

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The specific activity of branched-chain amino acid aminotransferase was highest when S. cerevltiue was grown in minimal medium containing a branched-chain amino acid as nitrogen source. Growth in complex media with glycerol or ethanol gave moderately high levels, whereas with glucose and fructose the specific activity was very low. Mutagenesis defined three genes (BAA1 to BAA3) required for branched-chain amino acid catabolism.The haul mutation reduced the specific activity of the aminotransferase, the stationary phase density in YEPD and caused gross morphological disturbance. Branched-chain amino acid aminotransferase is essential for sporulation.

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Valia A. Norte

Interaction of the Salmonella typhimuriumTranscription and Virulence Factor SlyA with Target DNA and Identification of Members of the SlyA Regulon

Regulation ofEscherichia coliHemolysin E Expression by H-NS andSalmonellaSlyA

PhoP-Responsive Expression of theSalmonella entericaSerovar TyphimuriumslyAGene

The crystal structures of Lactococcus lactis MG1363 Dps proteins reveal the presence of an N‐terminal helix that is required for DNA binding

A study of branched‐chain amino acid aminotransferase and isolation of mutations affecting the catabolism of branched‐chain amino acids in Saccharomyces cerevisiae

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