Chitobiase, a new reporter enzyme.

N,N'-diacetylchitobiase (chitobiase) from the marine organism Vibrio harveyi is a highly stable reporter enzyme for gene fusions. This enzyme hydrolyzes the disaccharide chitobiose to N-acetyl glucosamine. The advantages of the reporter gene encoding chitobiase (chb) are: (i) that chitobiase and N-acetyl-beta-D-glucosaminidase activities are missing in E. coli strains, (ii) chitobiase can be monitored using blue/white colony indicator plates and (iii) convenient substrates for this enzyme are commercially available. The use of chitobiase as a reporter enzyme is generally applicable to the study of gene expression in those bacteria that do not contain N-acetyl-beta-D-glucosaminidases. We constructed plasmid vectors containing a multiple cloning site for producing in-frame fusions to chitobiase, the attP of lambda phase for movement into the bacterial chromosome for single-copy analysis, the gene encoding chloramphenicol acetyltransferase (cat), the pACYC184 origin of replication and the rrnBt1t2 terminator region upstream of the chb gene to prevent read-through from other promoters. In-frame fusions between the dnaA gene and chb were moved to the chromosome by site-specific recombination with the chromosomal attB site. These single-copy fusions were assayed for chitobiase to examine the effects of a deletion in the dnaA regulatory region.

Role of DNA methylation at GATC sites in the dnaA promoter, dnaAp2.

DnaA protein is required for the initiation of DNA replication at the bacterial chromosomal origin, oriC, and at the origins of many plasmids. The concentration of DnaA protein is an important factor in determining when initiation occurs during the cell cycle. Methylation of GATC sites in the dnaAp2 promoter, two of which are in the -35 and -10 sequences, has been predicted to play an important role in regulating dnaA gene expression during the cell cycle because the promoter is sequestered from methylation immediately following replication. Mutations that eliminate these two GATC sites but do not substantially change the activity of the promoter were introduced into a reporter gene fusion and into the chromosome. The chromosomal mutants are able to initiate DNA replication synchronously at both moderately slow and fast growth rates, demonstrating that GATC methylation at these two sites is not directly involved in providing the necessary amount of DnaA for precise timing of initiation during the cell cycle. Either sequestration does not involve these GATC sites, or cell cycle control of DnaA expression is not required to supply the concentration necessary for correct timing of initiation.