Y Ventur scite author profile

Y Ventur

4Publications

7Citation Statements Received

42Citation Statements Given

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Affiliations

Max Planck Society, Ruhr University Bochum

Publications

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Effects of adhesins from mannose-resistant Escherichia coli on mediator release from human lymphocytes, monocytes, and basophils and from polymorphonuclear granulocytes

et al. 1990

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We investigated the role of Escherichia coli expressing mannose-resistant hemagglutination and adhesins with regard to the induction of leukotrienes from a suspension of human lymphocytes, monocytes, and basophils (LMBs) compared with human polymorphonuclear granulocytes (PMNs). Genetically cloned E. coli strains expressing various types of mannose-resistant hemagglutination (MRH+) were phagocytosed to a higher degree by monocytes than the nonadherent E. coli strain. The various strains differed in their capacity to induce a chemiluminescence response, which showed the same pattern for LMBs and PMNs. Stimulation of LMBs with bacteria alone, unlike granulocytes, did not activate the cells for the release of leukotrienes. However, preincubation of LMBs with bacteria decreased subsequent leukotriene formation when the cells were stimulated with calcium ionophore. The inhibitory effect was dependent on the concentration of bacteria used for preincubation as well as on the preincubation temperature. The various bacterial strains differed in inhibitory potency for mediator release. Preincubation of LMBs with zymosan, opsonized zymosan, the bacterial peptide FMLP, and peptidoglycan had no inhibitory effect or even increased subsequent leukotriene formation. Opsonized bacteria were far less inhibitory than nonopsonized bacteria. In contrast to human LMBs, preincubation of human PMNs with mannose-resistant bacteria led to increased leukotriene B4 generation and reduced w-oxidation of leukotriene B4. Our data suggest that phagocytes (neutrophils, monocytes) respond in a different way for leukotriene formation after interaction with mannose-resistant E. coli.

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Does the Enzymatic Conversion of DNA Single-strand Damage into Double-strand Breaks Contribute to Biological Inactivation of γ-irradiated Plasmid DNA

Ventur

Schulte‐Frohlinde

1993

International Journal of Radiation Biology

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Incubation of y-irradiated plasmid DNA (pBR322) in a protein extract of E. coli CMK wild-type cells leads to the formation of double-strand breaks which contribute to biological inactivation by >80% . Int J Radiat Biol Downloaded from informahealthcare.com by Flinders University of South Australia on 02/07/15 For personal use only. Int J Radiat Biol Downloaded from informahealthcare.com by Flinders University of South Australia on 02/07/15 For personal use only.

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Biological inactivation of pBR322 plasmid DNA by enzyme- and radiation-induced single-strand damage under various conditions

Ventur

Schulte‐Frohlinde

1994

Mutation Research/DNA Repair

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Transformation Frequency of Gamma-Irradiated Plasmid DNA and the Enzymatic Double Strand Break Formation by Incubation in a Protein Extract of Escherichia Coli

Schulte‐Frohlinde¹,

Mark²,

Ventur³

1994

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It was found that incubation of ?-irradiated or DNaseI-treated plasmid DNA in a protein extract of Escherichia coli leads to enzyme-induced formation of double strand breaks (dsb) in competition with repair of precursors of these dsb. A survival curve of the plasmid DNA (as determined by transformation of E. coli was calculated on the basis of enzyme-induced dsb as well as those produced by irradiation assuming that they are lethal. The calculated D0 value was the same as that measured directly by transformation of irradiated plasmid DNA. Two models are presented that fit the experimental survival data as a function of dose. One is based on damage formation in the plasmid DNA including enzymatic conversion of single strand damage into dsb (U-model), the other is an enzymatic repair saturation model based on Michaelis-Menten kinetics. A closer inspection of the models shows that the U-model does not incorporate the observed repair saturation and the repair saturation model does not incorporate the observed higher order formation of dsb. A more valid model may be developed by combining the two models.

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Y Ventur

Effects of adhesins from mannose-resistant Escherichia coli on mediator release from human lymphocytes, monocytes, and basophils and from polymorphonuclear granulocytes

Does the Enzymatic Conversion of DNA Single-strand Damage into Double-strand Breaks Contribute to Biological Inactivation of γ-irradiated Plasmid DNA

Biological inactivation of pBR322 plasmid DNA by enzyme- and radiation-induced single-strand damage under various conditions

Transformation Frequency of Gamma-Irradiated Plasmid DNA and the Enzymatic Double Strand Break Formation by Incubation in a Protein Extract of Escherichia Coli

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