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Literature DB >> 4630515

Genetic analysis of repair of ultraviolet damage by competent and noncompetent cells of Bacillus subtilis.

Abstract

The repair of ultraviolet (UV) damage in Bacillus subtilis W23T(-) has been studied by transformation with deoxyribonucleic acid (DNA) extracted from irradiated cells before and after repair. The extent of repair of genetic markers by donor cells after low or moderate doses of UV was found to be related only to the initial degree of inactivation. After a very high dose, further inactivation occurred, also in proportion to initial damage. In addition, the competent recipient cells were shown to repair approximately 75% of the damage in transforming DNA. The sensitivities of markers irradiated either in vivo or in vitro appeared to be related to map position, the more proximal markers showing a greater resistance to UV inactivation.

Entities: Mutation Species

Mesh：

Substances：

Year: 1973 PMID： 4630515 PMCID： PMC251606 DOI： 10.1128/jb.113.1.88-95.1973

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

24 in total

7. Ultraviolet inactivation and excision-repair in Bacillus subtilis. II. Differential inactivation and differential repair of transforming markers.

Authors: S Bron; G Venema
Journal: Mutat Res Date: 1972-05 Impact factor: 2.433

4. The role of the HCR system in the repair of lethal lesions of Bacillus subtilis phages and their transfecting DNA damaged by radiation and alkylating agents.

Authors: M Vízdalová; E Janovská; V D Zhestyanikov
Journal: Folia Microbiol (Praha) Date: 1980 Impact factor: 2.099

4 in total

Genetic analysis of repair of ultraviolet damage by competent and noncompetent cells of Bacillus subtilis.

1. THE DISAPPEARANCE OF THYMINE DIMERS FROM DNA: AN ERROR-CORRECTING MECHANISM.

2. Differential stabilities of individual heredity determinants in transforming principle.

3. REQUIREMENTS FOR TRANSFORMATION IN BACILLUS SUBTILIS.

4. Inactivation of transforming DNA by ultraviolet irradiation.

5. Saturation of dark repair synthesis: accumulation of strand breaks.

6. Recovery of colony-forming ability and genetic marker activity by UV-damaged Hemophilus Influenzae.

7. Ultraviolet inactivation and excision-repair in Bacillus subtilis. II. Differential inactivation and differential repair of transforming markers.

8. Macromolecular synthesis in Bacillus subtilis during development of the competent state.

9. Replication of the bacterial chromosome: location of new initiation sites after irradiation.

10. Repair of ultraviolet-irradiated transforming deoxyribonucleic acid in Haemophilus influenzae.

1. Repair and subsequent fragmentation of deoxyribonucleic acid in ultraviolet-irradiated Bacillus subtilis recA.

2. Postirradiation recovery dependent on the uvr-1 locus in Bacillus subtilis.

3. Postreplication repair of ultraviolet-irradiated transforming deoxyribonucleic acid in Bacillus subtilis.

4. The role of the HCR system in the repair of lethal lesions of Bacillus subtilis phages and their transfecting DNA damaged by radiation and alkylating agents.