Ureolysis helps bacteria acquire nitrogen sources and also prevent from acid damage by neutralizing the acidic environments. The process requires proteins encoded by the operon for a functional multicomponent urease. Klebsiella pneumoniae CG43 harbors two urease operons namely ure1 (ureD1-A1-B1-C1-E1-F1-G1) and ure2 (ureA2-B2-C2-E2-F2-G2-D2), different from that only ure1 operon is contained in the genome of the clinical isolates NTUH-K2044 and MGH78578 or the soil isolate KP 342. The ureA1 and ureA2 deletion effects were firstly compared to determine for their functional roles. Removal of ureA1 or ureA2 gene conferred no changes on the bacterial growth in LB, while ∆ureA1 and ∆ureA1∆ureA2 exerted an impaired growth in M9 with urea as the N source. The mutant ∆ureA2 cultured on Christensen’s urea plate or in Stuart’s urea broth carried urease activity. By contrast, the urease activity of ∆ureA1 could only be detected after 36-h culture in Stuart’s urea broth suggesting a late-onset of the ure2 enzymatic activity. Subsequently, the promoter activity was measured to investigate what environmental signals and regulatory proteins involved in influencing the urease expression. The results showed that both operons were activated when 6 mM urea added as nitrogen source into M9 medium. The expression of ure1 was induced by weak acid (pH 5) but repressed by high levels of nickel or ferric ion, whereas the ure2 expression was increased at room temperature 27℃compared to the expression level measured at 37℃. Several regulatory protein binding elements could be predicted in the putative promoter region of ure1 and ure2, and hence the promoter activity was also determined in each of the regulatory gene deletion mutants. The ure1 expression was found to be markedly decreased by fur deletion but was restored by removing ryhB gene from the fur deletion mutant. On the other hand, deletion of either hfq or ryhB from ∆ureA1 diminished the delayed type Ure2 activity. The urease activity could only be complemented by overexpression of RyhB but the Hfq-binding-residue-mutated RyhB in ∆hfq∆ureA1. This suggests that RyhB requires Hfq for the activation of Ure2 expression. Finally, deletion of either ureA1 or ureA2 abolished the production of type 3 fimbriae major pilin MrkA but increased the type 1 fimbriae major pilin FimA production. This implies that the accumulation of urea may inhibit type 3 fimrbiae expression but induce the expression of type 1 fimbriae.