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Literature DB >> 14495308

Photoenzymatic repair of ultraviolet damage in DNA. I. Kinetics of the reaction.

Abstract

As previously reported, ultraviolet-inactivated bacterial transforming DNA can be restored to activity by an enzyme-like agent from bakers' yeast which requires light for its activity. Kinetics of this reaction, in the presence and absence of inhibitors, are found consistent with the Michaelis-Menten reaction scheme, with the sites of ultraviolet damage on the DNA serving as substrate and the repaired structure as product. Kinetic studies with different light intensities suggest that the necessary illumination causes photolysis of the enzyme-substrate complex with concurrent repair of the DNA. Competitive inhibition of irradiated transforming DNA repair, which occurs when irradiated non-transforming DNA is present in the same reaction mixture, permits ultraviolet damage (of the kind capable of being photoreactivated) to be detected in any type of DNA.

Entities: Species

Keywords: DESOXYRIBONUCLEIC ACID; ENZYMES/chemistry; LIGHT; ULTRAVIOLET RAYS; YEASTS/chemistry

Mesh：

Substances：
DNA, Bacterial
Enzymes
DNA

Year: 1962 PMID： 14495308 PMCID： PMC2195193 DOI： 10.1085/jgp.45.4.703

Source DB: PubMed Journal: J Gen Physiol ISSN： 0022-1295 Impact factor: 4.086

7 in total

6. Studies on transformations of Hemophilus influenzae. II. The molecular weight of transforming DNA by sedimentation and diffusion measurements.

Authors: S H GOODGAL; R M HERRIOTT
Journal: J Gen Physiol Date: 1961-07 Impact factor: 4.086

7. Photoreactivation of transforming DNA by an enzyme from bakers' yeast.

Authors: C S RUPERT
Journal: J Gen Physiol Date: 1960-01 Impact factor: 4.086

7 in total

13 in total

4. Nonphotoreactivating Repair of Ultraviolet Light-Damaged Transforming Deoxyribonucleic Acid by Micrococcus lysodeikticus Extracts.

Authors: R L Elder; R F Beers
Journal: J Bacteriol Date: 1965-09 Impact factor: 3.490

Photoenzymatic repair of ultraviolet damage in DNA. I. Kinetics of the reaction.

1. Genetic transformation. II. The significance of damage to the DNA molecule.

2. Photochemistry of cytosine nucleosides and nucleotides.

3. Photoreactivation.

4. Protein measurement with the Folin phenol reagent.

5. Photoreactivation in vitro of ultraviolet-inactivated Hemophilus influenzae transforming factor.

6. Studies on transformations of Hemophilus influenzae. II. The molecular weight of transforming DNA by sedimentation and diffusion measurements.

7. Photoreactivation of transforming DNA by an enzyme from bakers' yeast.

1. [Effect of ultraviolet light on human chromosomes (author's transl)].

2. INFECTION OF TRANSFORMABLE CELLS OF HAEMOPHILUS INFLUENZAE BY BACTERIOPHAGE AND BACTERIOPHAGE DNA.

3. Resetting the Biological Clock in Gonyaulax with Ultraviolet Light.

4. Nonphotoreactivating Repair of Ultraviolet Light-Damaged Transforming Deoxyribonucleic Acid by Micrococcus lysodeikticus Extracts.

5. Suppression of photoreactivating enzyme production in Escherichia coli grown under anaerobic conditions.

6. Binding of E. coli DNA photolyase to a defined substrate containing a single T mean value of T dimer.

7. Multiplicity reactivation of reovirus particles after exposure to ultraviolet light.

Review 8. Replisome structure suggests mechanism for continuous fork progression and post-replication repair.

9. Light-illumination effects on the cellular concentration of photolyase molecules in yeast.

10. NONPHOTOREACTIVATING REPAIR OF ULTRAVIOLET LIGHT-DAMAGED MICROCOCCUS LYSODEIKTICUS CELLS.