Pitayas usually indicate the fruit crops belonging to the genus Hylocereus (Cactaceae) and their fruits can be grouped into red skin white flesh (H. undatus) and red skin red flesh (Hylocereus spp.). Cactus virus X (CVX), Pitaya virus X (PiVX) and Zygocactus virus X (ZyVX) are known pitaya viruses in Taiwan and they all belong to the genus Potexvirus. Field surveys showed that these viruses exist in most areas in Taiwan. The purposes of this study are to build up pitaya virus inoculation system and to investigate the movement and distribution of the viruses. Because there is no efficient inoculation method for pitaya viruses, we want to establish an inoculation system with high successful rate for further studies. Based on previous studies, cactus plants quickly form barrier tissues after they are wounded. This property may interfere with the success of virus inoculation. Therefore, pitaya (H. undatus) seedlings were chosen as plant materials, the cotyledons were mechanically inoculated with the help of carborundum, and then viral infection was investigated. By ELISA test, 80% of CVX-infected phyllocaldes were obtained after 9 days of CVX single inoculation but only 40% of PiVX-infected phyllocaldes were acquired after 11 days of PiVX single inoculation. Using cotyledon inoculation method to study CVX infection and movement inside the pitaya seedlings, the result indicated that the period between 3 to 12 days post inoculation is the key stage of CVX long-distance movement. When inoculated with the same concentration of CVX and PiVX, CVX showed better movement ability than PiVX in single- and mixed-inoculation according to MNC RT-PCR. PiVX infection rate was higher in mixed-inoculation than in single-inoculation. The result suggested that CVX may help PiVX move inside the plant. When single- or mix-inoculated with the same total virus concentration, the results of MNC RT-PCR revealed cotyledons were 100% infected after 3 days; PiVX showed higher infection rate in single inoculation after 9 days. Therefore, it is proposed the assistance in PiVX movement by PiVX might be better than by CVX. Based on tissue blot immunoassay, viral signals could be detected in the shoot tips and roots of CVX- or PiVX-infected pitaya seedlings. By using simple fixation combined with immunohistochemistry, we observed obvious virus signals around the shoot meristem of virus-infected pitaya seedling but not in the central of shoot meristem. These results demonstrated that CVX and PiVX can systemically infect the pitaya seedling but maybe they cannot invade the shoot meristem.