Marcel J. J. Hakkaart scite author profile

We studied the expression of gene H, located between 9.3% and 11% on the CLo DF13 genome, as well as the functions of the gene product. We found that treatment of bacterial cells with mitomycin-C results in the induced synthesis of three Clo DF13 specified proteins namely cloacin DF13, immunity protein and protein H. Evidence was obtained that the genes encoding these proteins form one, mitomycin-C induceable, operon; the promoter at 32% in front of the cloacin gene is essential for the induced expression. Furthermore we could demontrate that protein H is involved in the lethal effect of mitomycin-C treatment of bacteriocinogenic cells. The data in this paper show that a high concentration of protein H in cells, due either to an induced expression of gene H (mitomycin-C induction) or to a gene dosage effect (Clo DF13 copl Ts copy control mutant), results in the lysis of bacterial cells. The implication of these data are discussed.

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Subcellular distribution of RNA sequences complementary to sonchus yellow net virus RNA

Milner

Hakkaart

Jackson

1979

Virology

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Stable Maintenance of Plasmid CLO DF13: Structural and Functional Relationships Between Replication Control, Partitioning, and Incompatibility

Nijkamp

Gemen

Hakkaart

et al. 1985

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Structure and regulation of gene expression of a Clo DF13 plasmid DNA region involved in plasmid segregation and incompatibility

et al. 1983

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The bacteriocinogenic plasmid Clo DF13 contains genetic information involved in the accurate partitioning of the plasmid (parA and parB) as well as in incompatibility phenomena (incA, B, C and D). In this paper we report on the primary structure and regulation of gene expression of the 29% - 50% part of Clo DF13, containing the DNA regions incA, incB and parB as well as genes K and L. According to the results of our DNA sequence analysis, mapping of transposon insertions, RNA blotting and S1 mapping experiments, we conclude that: a) genes K and L are transcribed as one operon; transcription of this operon is initiated at a promoter (P2) located at 32.5% and proceeds in a clockwise direction. b) treatment of cells with mitomycin-C, significantly enhances transcription from P2, although this promoter is probably not directly repressed by lexA protein. c) Termination of transcription of this operon occurs between genes K and L, as well as distal to gene L. The possible role of gene products and/or sites, located within the 29-50% DNA region, in plasmid incompatibility and segregation is discussed.

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