Genetic and biochemical characterization of the DNA binding domain of Escherichia coli K-12 LexA protein.

Thliveris, Andrew Tom.

January 1989

The LexA protein of E. coli is a repressor of at least 20 genes in the SOS regulon, and by this function plays a major role in regulating the SOS response. Two different genetic approaches have been taken to define the DNA binding domain of LexA repressor. First, several mutant repressors which are defective in DNA binding have been isolated. The mutations generating these repressors were dominant to lexA+, indicating that the mutant proteins can act in trans to interfere with binding of normal repressor to an operator sequence. The repressors may be defective due to elimination or disruption of contacts made between side chain(s) within the protein and the DNA helix but dominant because they can still interact with other monomers of LexA protein. In a second experiment to define the DNA binding domain of LexA protein, a novel genetic selection has been used to isolate DNA binding specificity mutants. The recA operator (CTG TATGA.GCATA CAG), a known lexA binding site, has been altered in a symmetric fashion. This choice was based on the assumption that the dyad symmetry of the operator indicates at least two repressor monomers bind to each operator such that each monomer recognizes one half of the operator. A class of mutant repressors which restored binding to this altered operator but had little affinity for the wild-type recA operator was isolated. This type of mutation allowed the identification of amino acids in the repressor which are likely to make specific contacts with base-pair(s) in the DNA binding site. By examining the effects of a series of amino acid substitutions on repressor specificity, it was possible to show that a glutamic acid residue at position 45 (E45) contacts the first and last base-pair of the consensus recA operator (CTG TATGA.GCATA CAG). Both negative dominant and operator recognition mutations were located in a small region that was previously identified to specify a helix-turn-helix motif based on sequence similarity to other repressors. These studies therefore suggest that LexA protein may bind to DNA by a helix-turn-helix motif similar to these repressors.

Escherichia coli -- Genetics.

Biochemical genetics.

DNA.

Mutagenesis.

IDENTIFICATION OF MUTATIONS IN THE ESCHERICHIA COLI RECA AND LEXA REGULATORY LOCI.

WERTMAN, KENNETH FRANKLIN.

January 1984

This report describes the development and use of an expression vector system based on the single-stranded DNA bacteriophage M13. A derivative of M13mp8, designated M13mp8/P, was prepared in which the promoter and N-terminal codons of bacterial genes may be fused to a portion of β-galactosidase, resulting in an easily scorable phenotype. Because transcription from the inserted promoter remains responsive to the host regulatory system, it is simple to screen mutagenized phage for isolates with aberrant regulatory phenotypes, and to determine the mutational changes by dideoxy sequence analysis. The feasibility of this method was demonstrated by identification of a large number of mutations in the regulatory regions of two genes, recA and lexA. Base substitutions that altered the phenotype of recombinant phage were identified both in the single LexA repressor binding site of recA and in the two binding sites of lexA, as well as in other sites that likely affect translational efficiency. My results suggest that this method will be generally useful for mutational analysis of transcriptional and translational regulatory elements. The mutants that were isolated by the above approach were used to investigate the specificity of LexA protein binding by quantifying the repressibility of a several mutant recA and lexA operator/promoter regions fused to the E. coli galactokinase (galK) gene. The results of this analysis indicated that two sets of four nucleotides (terminal nucleotide contacts), one set at each extreme end of the operator, are most critical for repressor binding. In addition, our results indicate that the repressor-operator interaction is symmetric in nature, in that mutations at symmetrically equivalent positions in the recA operator had comparable effects on repressibility. The inferred symmetry of the interaction justified the reevaluation of the consensus sequence by half-site comparison, which yielded the half-site consensus: (5') CTGTATAT. Although the first four positions of this half-site sequence have the greatest effect on LexA repressor binding, the last four are well conserved among binding sites and appear to modulate repressor affinity. The role of the terminal nucleotide contacts and the mechanism by which the internal sequences affect repressor binding is discussed.

Escherichia coli -- Genetics.

Bacterial genetics.

Genetic regulation.

THE EFFICACY OF NATURAL PLANT ANTIMICROBIALS AGAINST ESCHERICHIA COLI

Gilling, Damian Henry

January 2011

The number of foodborne disease outbreaks related to fresh produce has increased in recent years. This has coincided with a growing public demand for minimally processed fruits and vegetables. Effective produce sanitizers are therefore needed that are at least as effective as chlorine, currently the most commonly used sanitizer. Natural antimicrobials from plant extracts and essential oils are a possible alternative. These are highly effective and may also be used in situations in which chlorine is not advantageous; for instance, in situations in which chlorine has limited efficacy or because of concerns over the production of harmful by-products resulting from chlorine use. Plant derived essential oils have been shown to be antibacterial, antiviral, and antifungal. In this study we examined the use of natural antimicrobials from plant extracts and essential oils as possible alternative sanitizers. We examined these antimicrobials for their efficacy against Escherichia coli. In addition, since many of these natural compounds are believed to be membrane active, silver ions were added to some of the tests to assess the potential for synergy between the antimicrobials. Silver ions, although slow-acting on their own, often exhibit a synergistic antimicrobial effect when combined with other membrane active antimicrobials such as oxidizing agents. These studies reveal that plant derived antimicrobials are effective sanitizers with the potential to replace commonly used chlorine

Essential Oils

Microbiology

Antimicrobials

Escherichia coli

Interaction of zinc(11) and other metals with bacteria

Hashim, Rohani

January 1997

No description available.

546

The characterisation and conjugation of the fungal toxin #alpha#-sarcin

Sylvester, Ian David

January 1995

No description available.

615.9

The General Secretory Pathway (GSP) of Erwinia carotovora subspecies carotovara (Ecc)

Thomas, Joanna Dawn

January 1996

No description available.

572

Soft-rot erwinias; Escherichia coli

Bacterial flavohaemoglobins : physiological function and responses to nitrosative stress

Stevanin, Tania Maria

January 2000

No description available.

579

Pathogenic potential of Escherichia coli O26 and sorbitol-fermenting Escherichia coli O157:NM

Rosser, Tracy

January 2010

Verocytotoxin-producing Escherichia coli (VTEC) are important human pathogens that may cause diarrhoea, haemorrhagic colitis and haemolytic uremic syndrome (HUS). Worldwide, non-sorbitol-fermenting (NSF) VTEC O157:H7 is the most common serogroup associated with HUS but several non-O157:H7 serogroups have emerged as causes of this disease. This research investigated the pathogenic potential of two non-O157:H7 serogroups: O26 and sorbitol-fermenting (SF) O157:NM. While VTEC O26 have emerged as a significant cause of HUS in continental Europe, human infections associated with this pathogen are uncommon in Scotland and generally only result in simple diarrhoea. The study characterised E. coli O26 isolates recovered from human infections in Europe and Scotland and isolates collected from Scottish cattle with the objectives to identify factors which may allow strains to cause more serious clinical disease and to investigate the potential of bovine VTEC O26 in Scotland to cause human infection. MLST analysis of housekeeping genes found little genetic variation in the genomic ‘backbone’ among the vast majority of E. coli O26 isolates. The gene for verocytotoxin 2 (vtx2) alone was carried by VTEC O26 isolates recovered from patients in continental Europe but was found in no Scottish human isolate, where the majority of isolates did not harbour a vtx gene. It was demonstrated that among the European VTEC O26 human isolates, 67% carried a specific allele within the promoter region for LEE1 and 87% harboured the tccP2 gene. In contrast, no Scottish VTEC O26 human isolate carried this allele or the tccP2 gene. The impact these genotypic characteristics have on the pathogenic potential of a strain remains uncertain. There were no clear differences in verocytotoxin titres, levels of LEEencoded protein secretion or levels of adherence to Caco-2 cells between VTEC O26 isolates recovered from human infections of varying severity. However, levels of LEE-encoded protein secretion from cattle isolates were generally higher than those from many of the human isolates. The differences in pathogenic potential between isolates are likely to be due to horizontally acquired DNA, including vtx2 carriage and the O-island-phage-associated effector protein repertoire. Further work is required to determine if the differences identified may also impact on shedding levels from cattle and therefore the likelihood of transmission to humans. Since 1988, SF VTEC O157:NM strains have emerged and have been associated with a higher incidence of progression to HUS than NSF VTEC O157:H7. This study investigated bacterial factors that may account for the increased pathogenic potential of SF VTEC O157:NM. While no evidence of toxin or toxin expression differences between the two VTEC O157 groups was found, the SF VTEC O157:NM strains adhered at significantly higher levels to a human colonic cell line. Under the conditions tested, curli were shown to be the main factor responsible for the increased adherence to Caco-2 cells. The capacity of SF VTEC O157:NM strains to express curli at 37C may have relevance to the epidemiology of human infections as curliated strains could promote higher levels of colonization and inflammation in the human intestine. In turn this could lead to increased toxin exposure and an increased likelihood of progression to HUS.

616.9

Role of Type III secretory effectors EspF and SopB in enteric pathogenesis of Escherichia coli and Salmonella enterica serovar Typhimurium

Tahoun, Amin M. Abd El Hady

January 2011

The EspF protein is translocated into host cells by the type III secretion system of enteropathogenic and enterohemorrhagic Escherichia coli (EPEC and EHEC). EspF sequences differ between EPEC and EHEC serotypes in terms of the number of SH3-binding polyproline rich repeats and specific residues in these regions as well as residues in the amino domain involved in cellular localization. In this study we have compared the capacity of different espF alleles to inhibit: (i) bacterial phagocytosis by macrophages; (ii) translocation through an M-cell co-culture system; (iii) uptake by and translocation through cultured bovine epithelial cells. The espFO157 allele was significantly less effective at inhibiting phagocytosis and also had reduced capacity to inhibit E. coli translocation through a human-derived in vitro M-cell co-culture system in comparison to espFO127 and espFO26. In contrast, espFO157 was the most effective allele at restricting bacterial uptake into and translocation through primary epithelial cells cultured from the bovine terminal rectum, the predominant colonisation site of EHEC O157 in cattle and a site containing M-like cells. As functional differences could not be simply assigned to variation in established interactions of EspF with Sorting Nexin 9 and N-WASP, yeast-2-hybrid screening was used to identify additional host proteins that may interact with EspF. The anaphase promoting complex inhibitor, Mad2L2, was identified from this screen. Mad2L2 was then demonstrated to interact with EspF variants from EHEC O157:H7, O26:H11 and EPEC O127:H6 by Lumier assays. While Mad2L2 has been shown to be targeted by the non homologous Shigella effector protein IpaB to limit epithelial cell turnover, we presume that EspF interactions with this protein may indicate a similar function to promote EPEC and EHEC colonization. The final section of work addressed whether bacterial interactions can actually induce M-cell differentiation on follicle-associated epithelium. The work focused on bovine rectal primary cell cultures interacting with Salmonella enterica serovar Typhimurium. The type III secreted protein, SopB, was required for Salmonella to: III (i) activate parts of epithelial to mesenchymal transition (EMT) pathway; (ii) transform a subset of epithelial cells to a cell type that phenotypically and functionally resembles specialized antigen sampling M cells; (iii) induce RANKL and downstream RelB dependent NFkB signaling. The work suggests that Salmonella may induce this cellular transformation to promote its invasion and colonization of intestinal mucosa.

616.9

Factores de riesgo extrahospitalarios asociados a infección de las vías urinarias por E. Coli productoras de betalactamas en gestantes. Clínica Good Hope en marzo 2014 – 15

Candia Rodriguez, Leonela

January 2016

Objetivo.- Determinar los factores riesgo asociados a Infecciones de vías urinarias por E. coli productoras de Betalactamasas en gestantes. Clínica Good Hope. Durante el periodo Marzo 2014 –2015. Métodos.- Se realizó un estudio observacional, analítico, retrospectivo de casos y controles. Los datos se obtuvieron a partir de la revisión de las historia clínicas de gestantes con IVU en las que cumplieron con el criterio de selección, aplicamos un posteriormente identificamos características sociodemográficas, gineco obstetricas, clínicas de la infección y se analizaron los posibles factores asociados. Para el análisis se elaboró una base de datos obteniendo estadísticas descriptivas; X2 con nivel de significación estadística p<0,05. Resultados.- Se analizaron los datos de 187 pacientes. Se asociaron a E coli BLEE, la anemia, el antecedente de IVU, uso previo antibióticos, inicio de relaciones sexuales tempranas. En el análisis multivariado solo mantuvieron su significancia el uso previo de antibióticos IVU recurrente (IC 95%, OR=2,62), Anemia (IC 95% OR= 28,13), Hipotoroidismo (IC 95%, OR=2,97), (IC 95%, OR= 3,49), la HTA (IC 95%, OR=3,99) y las ITS (IC 95%, OR= 3,29). Así también el 45,5 % fueron casadas, 74,3% tenían estudios superiores. Promedio de edad gestación fue 21,96 semanas. Conclusiones y Recomendaciones.- Se describe la anemia como factor de riesgo para E coli BLEE causante de IVU adquirida en la comunidad, por lo mismo para luchar verdaderamente contra las infecciones urinarias complicadas y sus temibles consecuencias, debemos identificar las características que presenta la población con riesgo de padecerla. Esto justifica el seguimiento de rutina en el control prenatal, tratarla es prevenir las complicaciones.

Infecciónes Urinarias

BLEE

Escherichia coli

Embarazo