A microsuspension adaptation of the bacillus subtilis “rec” assay

SPP1 DNA was cleaved by the restriction endonucleases, BglI, BglII, EcoRI, KpnI, SmaI, and SalI. The molecular weights of the DNA fragments obtained by single enzyme digestion or by consecutive digestion with two enzymes were determined by electron microscopic measurements of contour length and by g

Six mutant strains of Bacillus subtilis hypersensitive to N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) were shown to be deficient in the adaptive response to MNNG and termed ada mutants (Morohoshi and Munakata 1985). All the mutations mapped between the attSPO2 and lin loci on the chromosome. The mut

## Abstract __A novel monooxygenase (CYP102A3) has been discovered within the__ Bacillus subtilis __genome that reveals a similarity of 76 % to the well‐known cytochrome P450 BM‐3 of__ B. megaterium __(CYP102A1). Both enzymes are natural fusion proteins consisting of a heme domain and a FAD/FMN‐red

recF resides between the dnaN and gyrB genes of Bacillus subtilis. The recF15 mutation results in replacement of a glutamate residue in the wild type with a lysine residue in the mutant RecF protein. We investigated the in vivo regulation of recF using a transcriptional fusion to the xylE gene and a

Plasmid pC194-1, a mutant of pC194, and chimeric derivatives of pC194-1 are segregationally unstable in B. subtilis. Such instability could be enhanced by exposure of pC194-1-carrying cells to methyl methanesulfonate. pC194-1 is distinct from pC194 in the addition of two A:T base pairs within the pr