Human thymidylate kinase (hTMPK) plays an essential role in dTTP supplement by catalyzing the reversible phosphoryl transfer from a donor (preferably ATP) to the acceptor TMP. The process of dTTP biosynthesis is required for efficient DNA replication and repair in cells. Introduction of genotoxic insult has been a major chemotherapeutic dogma in cancer treatment; Hu and Chang have shown that blocking dTTP supply could amplify DNA damage signal in highly proliferating tumor cells, thereby sensitizing these cells to chemotherapeutic agent such as doxorubicin, a topoisomerase II inhibitor. In my research, I aim to find cell permeable small molecules as to block hTMPK function. Based on the luciferase-coupled TMPK assay, a heterocyclic compound, YMU1, was found to be an hTMPK inhibitor. Many YMU1 derivatives were synthesized, and their effects on TMPK inhibition were evaluated. Moreover, inhibition of TMPK enhanced tumor lethality when treated with a low dose of chemotherapeutic agent. The combined treatment is a potential novel chemotherapy against cancer cells. 　　The general structural features of YMU1 derivatives include (1) a heterocycle H1 that may comprise 1–4 heteroatoms of N and O elements, (2) 1–3 substituents, G, on H1, (3) another heterocycle H2 in the linker, and (4) a library of R groups. According to our study, we have synthesized and identified other 13 compounds having comparable level of inhibitory activity against hTMPK like YMU1.