SOS Repair Hypothesis: Phenomenology of an Inducible DNA Repair Which is Accompanied by Mutagenesis
- 1 January 1975
- book chapter
- Published by Springer Nature
Abstract
A hypothesis was proposed several years ago that Escherichia coli possesses an inducible DNA repair system (“SOS repair”) which is also responsible for induced mutagenesis. Some characteristics of the SOS repair are (1) it is induced or activated following damage to DNA, (2) it requires de novo protein synthesis, (3) it requires several genetic functions of which the best-studied are recA + and lex + of E. coli, and (4) the physiological and genetic requirements for the expression of SOS repair are suspiciously similar to those necessary for the prophage induction. The SOS repair hypothesis has already served as the working hypothesis for many experiments, some of which are briefly reviewed. Also, some speculations are presented to stimulate further discussions and experimental tests.Keywords
This publication has 37 references indexed in Scilit:
- Repair mechanisms involved in prophage reactivation and UV reactivation of UV-irradiated phage λMutation Research, 1973
- Post‐Replication Repair of DNA in Ultraviolet‐Irradiated Mammalian CellsEuropean Journal of Biochemistry, 1972
- Induction of chromosome re-initiations in a thermosensitive DNA mutant of Escherichia coliJournal of Molecular Biology, 1970
- Ultraviolet Reactivation in Bacteriophage LambdaJournal of General Virology, 1970
- Correlations between host-cell reactivation, ultraviolet reactivation and pyrimidine dimer excision in the DNA of bacteriophage λJournal of Molecular Biology, 1970
- Complementary action of recombination and excision in the repair of ultraviolet irradiation damage to DNAJournal of Molecular Biology, 1970
- ULTRAVIOLET-INDUCED MUTATION AND DNA REPAIRAnnual Review of Microbiology, 1969
- DNA RepairAnnual Review of Biochemistry, 1968
- Discontinuities in the DNA synthesized in an Excision-defective strain of Escherichia coli following ultraviolet irradiationJournal of Molecular Biology, 1968
- Chloramphenicol-sensitive DNA synthesis in normal and irradiated bacteriaBiochimica et Biophysica Acta, 1959