In recent years, pitaya has become an important tropical fruit in Taiwan markets. Field investigations showed that almost all pitaya plants in orchards are infected by viruses including two members of the genus Potexvirus, Cactus virus X (CVX) and Pitaya virus X (PiVX). CVX was first reported to infect pitaya, causing mild mottling, by Dr. R. F. Liou’s team in 2001. And PiVX was found, identified and named by our lab in 2008. Since mixed infections of CVX and PiVX on pitayas are very common, the aim of this study is to investigate whether there are interactions between these two viruses in host plants. The study was divided into two parts including viral replication and virus distribution in planta. To analyze viral RNA accumulation, the infectious clones of CVX and PiVX were singly or doubly inoculated to either protoplasts of tobacco (Nicotiana benthamiana), quinoa (Chenopodium quinoa) and pitaya (Hylocereus undatus) or seedlings of quinoa and pitaya. Through northern hybridization using specific RNA probes and RT-qPCR using specific primers of CVX and PiVX, we detected each viral RNA accumulation and found that these two viruses performed synergistic interaction when mixed infection on tobacco and pitaya but showed antagonistic interaction on quinoa. In the virus distribution study, viral infectious clones expressing different exogenous fluorescent proteins (CVX-mCherry, CVX-EGFP and PiVX-EGFP) were prepared and mechanically inoculated on leaves of quinoa and cotyledons of pitaya seedlings. According to the results of laser confocal fluorescence microscopy, CVX-mCherry and CVX-EGFP revealed stronger spatial separation than CVX-mCherry and PiVX-EGFP on quinoa inoculated leaves. Whereas, the signals of mix-inoculated CVX-mCherry and CymMV-EGFP showed completely overlapping on quinoa. The degree of mutual exclusion between two mix-inoculated viruses on quinoa is positively related to their sequence homology. However, the spatial separation observed on pitaya did not reveal relation with viral sequences and needs further study. When mix-inoculated with viral transcripts of CVX-mCherry / CVX-EGFP or CVX-mCherry / PiVX-EGFP, many pitaya protoplasts were found to express two fluorescence signals which means two viruses can infect the same cell during inoculation. According to these data, we propose that CVX and PiVX can enter the same cells simultaneously during mixed infection. After that, these two viruses create a friendly environment which is beneficial to each other. This may partially explain the common situation of mixed infection in field. The synergistic effect between CVX and PiVX is host specific, and the mechanism needs further experiments to clarify.