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ABSTRACT: A computer-aided analysis of the repeating sequence of Bordetella pertussis chromosome (RSBP3) revealed 3 open reading frames, one of whose (ORF1) can code a protein whose structure and properties are similar to those of transposasas, i.e. enzymes in charges for the traveling of migrating genetic elements of pro- and eukaryote. Mutants of the RSBP3 insertion sequence with the affected and unaffected ORF1 sequence were constructed in order to substantiate the above assumption. Two independent experimental models (formation of inter-plasmid co-integrates and of co-integrates between plasmid and E. coli chromosome) were used to show that the RSBP3-stimulated formation of co-integrates is only true for plasmids containing RSBP3 with the unaffected ORF1 sequence. An activity of the Hpr protein (a component of the phosphoenolpyruvate-dependent phosphotransferase) was proven to influence the formation process of inter-plasmid co-integrates.
Molekuliarnaia genetika, mikrobiologiia i virusologiia 02/2004;
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ABSTRACT: Mutational damage of the fruK gene coding for fructose-1-phosphate kinase leads to 2-6-fold (depending on the strain) decrease in FEP synthase activity in Escherichia coli. The fruK mutants were unable to utilize lactate as well as fructose and fructose-1-phosphate, acquiring, in addition, sensitivity to mannose in their growth medium. Reversions back to FruK+ phenotype or introduction of an intact fruK allele resulted in restoration of both FEP synthase activity and the ability to grow on lactate.
Genetika 09/1992; 28(8):46-51. · 0.44 Impact Factor
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ABSTRACT: A novel mutation, FruS localised in the fru operon was obtained. It uncouples expression of the genes determining synthesis of the fructose-specific transport proteins and fructose-1-phosphate kinase. In FruS bacteria the fruA and fruF genes (coding for Enzyme IIfru and FPr, respectively) are constitutive by expressed while fruK (encoding fructose-1-phosphate kinase) remains inducible. In contrast to other mutations, which render expression of the whole fru operon constitutive, the FruS mutation: (1) does not lead to D-xylitol sensitivity; (2) does not inhibit growth on D-lactate, pyruvate and L-alanine; (3) does not decrease phosphoenolpyruvate (PEP) synthase activity.
MGG - Molecular and General Genetics 05/1992; 232(3):394-8.
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ABSTRACT: A novel mutation fruS localised in the fru operon has been obtained. The mutation uncouples expression of genes determining fructose specific uptake and utilization. In the fruS bacteria fruA and fruF genes (coding for enzyme II and FPr, respectively) become constitutive, while the fruK gene (responsible for fructose-1-phosphate kinase synthesis) remains inducible. In contrast to the already known mutations making the whole fru operon constitutive, the fruS mutation: 1) does not lead to xylitol sensitivity; 2) does not depress growth on lactate, pyruvate and alanine; 3) does not decrease PEP-synthase activity.
Genetika 12/1991; 27(11):1912-9. · 0.44 Impact Factor
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FEMS Microbiology Reviews 07/1989; 5(1-2):125-33. · 10.96 Impact Factor
