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Literature DB >> 979960

The dependence of HNO2 mutagenesis in phage T4 on ligase and the lack of dependence of 2AP mutagenesis on repair functions.

C Bernstein, D Morgan, H L Gensler, S Schneider, G E Holmes.

Abstract

A temperature sensitive ligase allele of phage T4 reduced or eliminated HNO2 induced reversion of am mutants. Since at the temperatures used, the ligase mutant is defective in the repair of some types of lethal lesions (i.e., UV, MMS and EMS induced lesions) these results indicate that HNO2 mutagenesis may occur through a ligase dependent repair pathway. In contrast, 2AP induced mutation was not inhibited by mutants defective in the gene 30 ligase or in genes 32, 39, 41, 42, 44, 45, 46, 47, 49, 52, 56, 58-61 and v. This indicates that 2AP mutagenesis probably does not depend on a repair pathway in phage T4.

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Year: 1976 PMID： 979960 DOI： 10.1007/BF00268387

Source DB: PubMed Journal: Mol Gen Genet ISSN： 0026-8925

28 in total

1. Induction of reverse mutations and cross reactivation of nitrous acid-treated phage T4.

Authors: E BAUTZ-FREESE; E FREESE
Journal: Virology Date: 1961-01 Impact factor: 3.616

2. Stimulation of mutation in phage T 4 by lesions in gene 32 and by thymidine imbalance.

Authors: C Bernstein; H Bernstein; S Mufti; B Strom
Journal: Mutat Res Date: 1972-10 Impact factor: 2.433

3. Effects of the rec and exr mutations of Escherichia coli on UV reactivation of bacteriophage lambda damaged by different agents.

Authors: T L Kerr; M G Hart
Journal: Mutat Res Date: 1972-07 Impact factor: 2.433

4. Bromouracil mutagenesis: mispairing or misrepair?

Authors: E M Witkin; E C Parisi
Journal: Mutat Res Date: 1974-12 Impact factor: 2.433

5. Mutagenicity of dichlorvos and methyl methanesulphonate for Escherichia coli WP2 and some derivatives deficient in DNA repair.

Authors: B A Bridges; R P Mottershead; M H Green; W J Gray
Journal: Mutat Res Date: 1973-09 Impact factor: 2.433

The dependence of HNO2 mutagenesis in phage T4 on ligase and the lack of dependence of 2AP mutagenesis on repair functions.

1. Induction of reverse mutations and cross reactivation of nitrous acid-treated phage T4.

2. Stimulation of mutation in phage T 4 by lesions in gene 32 and by thymidine imbalance.

3. Effects of the rec and exr mutations of Escherichia coli on UV reactivation of bacteriophage lambda damaged by different agents.

4. Bromouracil mutagenesis: mispairing or misrepair?

5. Mutagenicity of dichlorvos and methyl methanesulphonate for Escherichia coli WP2 and some derivatives deficient in DNA repair.

6. Misrepair mutagenesis in bacteriophage T4.

7. On the mechanism of bromouracil-induced mutagenesis.

8. Recovery of phage T4 from nitrous acid damage.

9. Induction of error-prone repair as a consequence of DNA ligase deficiency in Escherichia coli.

10. Effects of p-fluorophenylalanine on the induction of mutations in bacteriophage T4. II. Nitrous acid mutagenesis.

1. Recombinational repair of alkylation lesions in phage T4. II. Ethyl methanesulfonate.

Review 2. Deoxyribonucleic acid repair in bacteriophage.

3. Recombinational repair of alkylation lesions in phage T4. I. N-methyl-N'-nitro-N-nitrosoguanidine.

4. UV-induced mutation in bacteriophage T4.