Cyclic di GMP (c-di-GMP) is used in many bacteria as a second messenger for the regulation of cellulose synthesis, motility, biofilm formation and the expression of virulence factors. The level of c-di-GMP is regulated by diguanylate cyclases (DGC) and phosphodiesterases (PDE), respectively represented by the GGDEF-domain and EAL (or HD-GYP)-domain containing proteins. Previous study has shown that the CSS-EAL protein YjcC exerts a PDE activity which is paraquat-inducible, and the gene deletion reduced the survivals of Klebsiella pneumoniae CG43 upon the oxidative stress but increase the type 3 fimbriae expression. Besides, the EAL domain protein MrkJ also carries PDE activity and the deletion apparently increased the expression of type 3 fimbriae in K. pneumoniae CG43S3. Analysis of the sequenced genome of K. pneumoniae CG43 revealed that in addition to yjcC, there are 4 other CSS-EAL protein encoding genes ylaB, yoaD, 16830, and rtn. The thesis intends to characterize the functional role of YlaB, YoaD, 16830, and Rtn. Firstly, the complementation analysis revealed that the MrkA pilin production, cellulose biosynthesis and biofilm formation of ΔyjcC or ΔmrkJ could be reduced by introducing in the mutant with the plasmid expressing YlaB or YoaD (but not Rtn nor 16830). In addition, the expression of YlaB or YoaD inΔyjcC could increase the resistant activity to oxidative stress implying their N-terminal CSS-motif carry similar reception structure as that of YjcC. In the meantime, the promoter activity measurement via a LacZ reporter system showed that the promoter activity of ylaB and yoaD are acid inducible and rtn expression is increased by the deletion of csgD. At last, the comparative phenotype analysis of CG43S3 and ΔyoaD mutant revealed that MrkA pilin production, cellulose biosynthesis and biofilm formation are all increased by the deletion of yoaD which further confirms the PDE activity of YoaD.