Isolation and some distinctive properties of a new type of recombination-deficient mutant of Bacillus subtilis

Genetic effects of N-methyl-N'-nitro-N-nitrosoguanidine and its homologs

Since the discovery of the mutagenic activity of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) in 1960, this compound has become one of the most widely used chemical mutagens. The present paper gives a survey on the chemistry, metabolism, and mode of interaction of MNNG with DNA and proteins, and of the genotoxic effects of this agent on microorganisms, plants, and animals, including human cells cultured in vitro. Data on the carcinogenicity and teratogenicity of MNNG as well as on the genotoxic effects of homologs of MNNG are also presented.

Mutants of Staphylococcus aureus deficient in recombinational repair. Improved isolation by selecting for mutants exhibiting concurrent sensitivity to ultraviolet radiation and N-methyl-N'-nitro-N-nitrosoguanidine

Recombination-deficient (rec) mutants of Staphylococcus aureus strains 152 and Ps29 were sought by initially screening mutagenized cultures for mutants exhibiting increased sensitivity to both ultraviolet (UV) radiation and N-methyl-N'-nitro-N-nitrosoguanidine (NG). Mutants thus isolated were analyzed for recombinational ability by transduction, and further characterized in terms of sensitivity to UV, NG, ability to repair UV-irradiated bacteriophage, and spontaneous and UV-induced DNA degradation. Mutagenesis of strain 152 yielded three isolates, one of which was rec, the second potentially lex, and the third possessing an undetermined repair deficiency. Mutagenesis of strain Ps29 resulted in the isolation of one mutant, which exhibited a rec genotype. In searching for rec mutants of S. aureus, the value of initially screening mutagenized cultures for mutants exhibiting concurrent sensitivity to UV and NG, as opposed to screening for UV sensitivity alone, is discussed.

Recombination-deficient mutants of Bacillus subtilis

Two mutant strains of Bacillus subtilis Marburg, NIG43 and NIG45, were isolated. They showed high sensitivities to gamma rays, ultraviolet light (UV), and chemicals. Deficiencies in genetic recombination of these two mutants were shown by the experiments on their capacity in transformation. SPO2 transfection, and PBS1 phage transduction, as well as on their radiation and drug sensitivities and their Hcr+ capacity for UV-exposed phage M2. Some of these characteristics were compared with those of the known strains possessing the recA1 or recB2 alleles. Mapping studies revealed that the mutation rec-43 of strain NIG43 lies in the region of chromosome replication origin. The order was purA dna-8132 rec-43. Another mutation, rec-45, of strain NIG45 was found to be tightly linked to recA1. The mutation rec-43 reduced mainly the frequency of PBS1 transduction. On the other hand, the mutation rec-45 reduced the frequency of recombination involved both in transformation and PBS1 transduction. The mutation rec-43 of strain NIG43 is conditional, but rec-45 of strain NIG45 is not. The UV impairment in cellular survival of strain NIG43 was gradually reverted at higher salt or sucrose concentrations, suggesting cellular possession of a mutated gene produce whose function is conditional. In contrast to several other recombination-deficient strains, SPO2 lysogens of strain NIG43 and NIG45 were not inducible, indicating involvement of rec-43+ or rec-45+ gene product in the development of SPO2 prophage to a vegetative form. The UV-induced deoxyribonucleic acid degradation in vegetative cells was higher in rec-43 and rec-45 strains.

Genetic and enzymic studies on the recombination process in Bacillus subtilis

We have isolated recombination deficient mutants of Bacillus subtilis on the basis of their sensitivity to methyl-methane-sulfonate or ultraviolet light, or of their inability to be transformed on solid medium. We have analyzed the mutants for several recombination and repair properties; we have grouped them in 5 classes on the basis of their phenotype and tested them for the activity of several enzymes acting on DNA, ie. DNA polymerase, polynucleotide ligase, ATP dependent DNase, and a DNase acting on single-stranded DNA. One mutant was found reduced in the latter DNase. Some of the mutants have been mapped, and they correspond to three different genes denominated rec D, rec F and rec G. All the recombination deficient mutants of B. subtilis described in the literature have been grouped in 7 classes; the mutations belong to 13 (and possibly 15) different genes distributed along the map. A coherent nomenclature and the criteria for a standard study of the rec mutants are proposed.