In an attempt to increase our understanding of plasmid replication in Bacillus subtilis we determined the effect of various dna Ts mutations [Gass, K. B., and Cozzarelli, N. R. (1973). J. Biol. Chem. 248, 7688–7700; Gross, J. D., Karamata, D., and Hempstead, P. G. (1968). Cold Spring Harbor Symp. Quant. Biol. 33, 307–312; Karamata, D., and Gross, J. D. (1970). Mol. Gen. Genet. 108, 277–287] on pUB110 replication. pUB110 is a kanamycin resistance plasmid originally isolated in Staphylococcus aureus and introduced into B. subtilis by transformation. At temperatures nonpermissive for chromosomal DNA synthesis dnaA13, dnaB19, dnaC6, dnaC30, dnaD23, dnaE20, and dnaI102 permit replication of the plasmid. In several cases this “amplification” continues until approximately equal amounts of plasmid and chromosomal DNA are present. dnaG34, dnaH151, dnaF133, mut-1, and polC26 affect both pUB110 and host DNA synthesis at nonpermissive temperatures. The last three mutations are known to affect the activity of DNA polymerase III (PolIII). When polC26 is incubated at a nonpermissive temperature, there is an accumulation of plasmid DNA with a density on EtBr-CsCl gradients intermediate between that of covalently closed circular (CCC) and open circular DNA. pUB110 can replicate in a strain which is deficient in DNA polymerase I (PolI). Finally, chloramphenicol (Cm) inhibits the replication of pUB110 as well as of chromosomal DNA.