Two different calmodulin-binding protein kinase cDNAs (NtCBK1/2) have been isolated from tobacco. To understand the CBK protein activity regulation, we compared the activity regulation of NtCBK1 and NtCBK2 by pH, Mg(2+) concentration and Na(+) concentration. We found the autophosphorylation of NtCBK1/2 reached the maximum in pH 7.5 and 8 respectively; Mg(2+) and Na(+) shown different effects on the activity of NtCBKs, high and low Mg(2+) concentrations both inhibited the activity of NtCBKs, but Na+ had little effect on the kinase activity. In addition, to obtain further insight about the physiological roles of individual NtCBKs, we detected the expression profiles of CBKs. The results revealed different patterns of expression of NtCBK1 and NtCBK2. Both are largely expressed in leaf and flower; but in stem and root, NtCBK1 gene had stronger expression than NtCBK2. NtCBK2 expression was induced by GA treatment, while NtCBK1 expression remained unchanged under GA treatment. Expression of both NtCBK1 and NtCBK2 increased in response to salt stress, the former to a greater extent, and both expressions did not change under high/low temperature, drought, NAA and ABA treatments.