Human thymidylate kinase (hTMPK) catalyses a critical step in the biosynthesis of deoxythymidine tirphosphate (dTTP) from either de novo or salvage pathway. However, information regarding the regulatory mechanism controlling hTMPK expression in the cell cycle has been lacking. In this study, I generated polyclonal antibody specifically against hTMPK, and confirmed it's specificity by antigen neutralization experiment. This antibody can specifically recognize endogenous hTMPK in extracts from various human cell lines. Using a purified antibody, we were able to detect the subcellular localization of hTMPK by immunostaing. We generated various mutations in the putative degradation signal motifs and catalytic domains of hTMPK. The purified recombinant proteins of hTMPK variants were subjected to enzymatic assay and kinetic analysis. We found that some mutations of the residues within the catalytic site (D15 →R15)and destruction motifs (5RGAL8 →5AGAA8, 36RAEL39 →36AAEA39, and 109KEN111 →109AAA111) caused change of kinetic properties. In this study, I also knockdown hTMPK expresion by small interference RNA to test whether decrease of cellular dTTP can sensitize cancer cells to DNA damage-induced cell death, thereby promoting the efficacy of genotoxic agents in cancer cell line. My results showed that prevention of hTMPK expression by synthetic siRNA or shRNA decreased the dTTP pool and suppressed the growth rate of HCT116 colon cancer cells. This also sensitized cells to Doxorubicin-induced apoptosis in HCT116 cells. Through these experiments, my results thus provide a rational basis for the design of therapeutic strategies for cancer.