František Mašek scite author profile

František Mašek

5Publications

15Citation Statements Received

48Citation Statements Given

How they've been cited

How they cite others

121

Affiliations

Sapienza University of Rome, Slovak Academy of Sciences, Cancer Research Institute

Publications

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RELATIONSHIP BETWEEN SURVIVAL AND THYMINE‐DIMER EXCISION IN ULTRAVIOLET‐IRRADIATED ESCHERICHIA COLI

Sedliaková¹,

Mašek²,

Bernátová³

1971

Photochem & Photobiology

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Abstract— The influence of amino acid prestarvation on both the resistance to u.v. light and excision of thymine dimers of bacterial strains E. coli B/r hcr+ thy‐ trp‐, E. coli B/r hcr‐thy‐trp‐, and E, coli 15 T‐ 555–7 thy‐meth‐trp‐arg‐ has been studied. The prestarvation increased the resistance of all the strains but reasonably inhibited excision of thymine dimers. Thus the enhancement of u.v. resistance after amino acid prestarvation was not due to more complete excision of thymine dimers.

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Depression of thymine dimer excision in various excision-proficient strains of Escherichia coli

Sedliaková

Mašek

Brozmanová

et al. 1974

Biochimica et Biophysica Acta (BBA) - Nucleic Acids and Protein

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The effect of the OmpT protease on excision repair in UV-irradiated Escherichia coli

Sedliaková

Mašek

Slezáriková

et al. 1997

Journal of Photochemistry and Photobiology B: Biology

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UV-inducible repair: Influence on survival, dimer excision, DNA replication and breakdown in Escherichia coli B/r Hcr+ cells

et al. 1978

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Evidence that dimers remaining in preinduced Escherichia coli B/r Hcr+ become insensitive after DNA replication to the extract from Micrococcus luteus

Sedliaková¹,

Brozmanová²,

Mašek³

et al. 1981

Biophysical Journal

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In Escherichia coli B/r Her+ irradiated with two separate fluences, dimer excision is prematurely interrupted. The present study was designed to follow tha fate of dimers remaining unexcised. The results imply that these dimers (or distortions containing dimers) are transformed on replication from the state of sensitivity to the state of insensitivity to endonuclease from Micrococcus luteus. This conclusion is based on the following findings: (a) dimers were radiochromatographically detectable in DNA replicated after UV, which indicated that they were tolerated on replication. (b) Similar amounts of dimers were detected radiochromatographically both in DNA remaining unreplicated and DNA twice replicated after UV, This along with the low transfer of parental label into daughter DNA, indicated that dimers remained in situ in parental chains. (c) Immediately after UV, all parental DNA contained numerous sites sensitive to the extract from M. luteus. 2 h after UV, a portion of parental DNA still contained a number of endonuclease-sensitive (Es) sites, while another portion of parental DNA and all daughter DNA were free of Es sites. (d) The occurrence of parental DNA free of Es sites was not temporally correlated with dimer excision, but with the first round of DNA replication. (e) The amount of DNA free of Es sites corresponded to the amount of replicated DNA. (f) Separation of replicated and unreplicated DNA, and detection of Es sites in both portions separately showed that the replicated DNA was almost free of Es sites, whereas unreplicated DNA contained a number of such sites.

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