Željko Trgovčević scite author profile

Željko Trgovčević

5Publications

75Citation Statements Received

72Citation Statements Given

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173

Affiliations

Rudjer Boskovic Institute, University of Zagreb, Yale University

Publications

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In vivo studies on the interaction of RecBCD enzyme and lambda Gam protein

et al. 1993

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The interaction between the RecBCD enzyme of Escherichia coli and the lambda Gam protein was investigated. Two types of experiments were done. In one type, Gam protein was produced by transient induction of the cells lysogenic for lambda cI857gam+. The presence of Gam protein, which inhibits RecBCD nuclease, enabled these cells to support the growth of a gene 2 mutant of bacteriophage T4 (T4 2). The lysogens overproducing the RecB subunit of RecBCD enzyme could titrate Gam protein and thus prevent the growth of T4 2. In contrast, the lysogens overproducing either RecC or RecD retained their capacity for growth of T4 2. It is therefore concluded that the RecB subunit is capable of binding Gam protein. In the second type of experiments, Gam protein was provided by derepressing the gamS gene on the plasmid pSF117 (S. A. Friedman and J. B. Hays, Gene 43:255-263, 1986). The presence of this protein did not interfere with the growth of wild-type cells (which were F-). Gam protein had a certain effect on recF mutants, whose doubling time became significantly longer. This suggests that the recF gene product plays an important role in maintenance of viability of the Gam-expressing cells. Gam protein exerted the most striking effect on growth of Hfr bacteria. In its presence, Hfr bacteria grew extremely slowly, but their ability to transfer DNA to recipient cells was not affected. We showed that the effect on growth of Hfr resulted from the interaction between the RecBCD-Gam complex and the integrated F plasmid.

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Interaction of Bacterial and Lambda Phage Recombination Systems in the X-Ray Sensitivity of Escherichia coli K-12

Trgovčević¹,

Wd²

1974

Proc. Natl. Acad. Sci. U.S.A.

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E. coli cells lysogenic for the thermoinducible prophage XcI857 can be transiently induced by a brief heat treatment. Although this treatment does not kill the cells, some X products normally formed during vegetative phage development are made that can alter the response of host cells to x-irradiation by causing an increase in radioresistance. This increased resistance is particularly striking in the recombination-deficient recBstrain, which is normally much more radiosensitive than its recB+ parent. After pulse-heating at 420, the survival curve of E. coli recB-lysogenized with XcI857 does not differ from that of the wild-type strain. Since X red mutants do not increase the radioresistance of recB-strains, both X red gene products, X exonuclease and dl-protein, are required to compensate for the missing recB product.Furthermore, phage-induced radioresistance also occurs in recB+ lysogens even when they carry X red-, but not when the X prophage is gam-. Thus, in wild-type cells, phage-induced radioresistance requires some interaction between the bacterial recB gene product (exonuclease V) and the phage -y-protein.

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Interaction of RecBCD enzyme with DNA damaged by gamma radiation

et al. 1991

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The DNA of a gene 2 mutant (T4 2-) of phage T4 is degraded by RecBCD enzyme in the bacterial cytoplasm. Under normal conditions, recBCD+ cells are therefore incapable of supporting the growth of phage T4 2-. Only if the nucleolytic activity of RecBCD enzyme is absent from the cytoplasm are T4 2(-)-infected bacteria able to form plaques. We found that recBCD+ cells can form plaques if, before infection with T4 2-, they have been exposed to gamma radiation. It is suggested that gamma ray-induced lesions of the bacterial DNA (e.g., double-strand breaks) bind RecBCD enzyme. This binding enables the enzyme to begin to degrade the bacterial chromosome, but simultaneously prevents its degradative action on the ends of minor DNA species, such as unprotected infecting phage chromosomes. Degradation of the chromosomal DNA, which occurs during the early postirradiation period, ceases about 60 min after gamma ray exposure. The reappearance of the nucleolytic action of RecBCD enzyme on T4 2- DNA accompanies the cessation of degradation of bacterial DNA. Both, this cessation and the reappearance of the nucleolytic action of ReCBCD enzyme on T4 2- DNA depend on a functional recA gene product. These results suggest that postirradiation DNA degradation is controlled by the recA-dependent removal of RecBCD enzyme from the damaged chromosome. By making use of the temperature-sensitive mutant recB270, we showed that RecBCD-mediated repair of gamma ray-induced lesions occurs during the early postirradiation period, i.e. during postirradiation DNA degradation. It is shown that the RecD subunit of RecBCD enzyme also participates in this repair.

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Modulation of EcoKI restriction in vivo: role of the lambda Gam protein and plasmid metabolism

et al. 1997

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Two novel types of alleviation of DNA restriction by the EcoKI restriction endonuclease are described. The first type depends on the presence of the gam gene product (Gam protein) of bacteriophage . The efficiency of plating of unmodified phage is greatly increased when the restricting Escherichia coli K-12 host carries a gam ؉ plasmid. The effect is particularly striking in wild-type strains and, to a lesser extent, in the presence of sbcC and recA mutations. In all cases, Gam-dependent alleviation of restriction requires active recBCD genes of the host and recombination (red) genes of the infecting phage. The enhanced capacity of Gam-expressing cells to repair DNA strand breaks might account for this phenomenon. The second type is caused by the presence of a plasmid in a restricting host lacking RecBCD enzyme. Commonly used plasmids such as the cloning vector pACYC184 can produce such an effect in strains carrying recB single mutations or in recBC sbcBC strains. Plasmid-mediated restriction alleviation in recBC sbcBC strains is independent of the host RecF, RecJ, and RecA proteins and phage recombination functions. The presence of plasmids can also relieve restriction in recD strains. This effect depends, however, on the RecA function in the host. The molecular mechanism of the plasmid-mediated restriction alleviation remains unclear.

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Tn5-rpsL: a new derivative of transposon Tn5 useful in plasmid curing

Stojiljković

Trgovčević

Salaj-Šmic

1991

Gene

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