Pitaya is a member of the genus Hylocereus in the family Cactaceae and recently becomes an important fruit crop. Most pitayas grown in Taiwan are infected by three potexviruses: Cactus virus X (CVX), Pitaya virus X (PiVX), and Zygocactus virus X (ZyVX). However, the infection mechanism of these viruses is still unknown. Coat proteins (CP) of potexviruses have been reported to interact with host proteins, and further affect viral accumulation and movement. According to previous research, CP mutant of PiVX reduced viral RNA accumulation in Nicotiana benthamiana protoplasts, but which host factor involving in this process is still unknown. The aim of this study is to find out which plant proteins can interact with PiVX CP, and to investigate the influence of these plant proteins on virus infection process. PiVX-infected pitaya (H. undatus) and quinoa (Chenopodium quinoa) were used for cross-linking co-immunoprecipitation (co-IP), and optimal experimental conditions were established before LC-MS/MS analysis of co-IP products. From four independent experiments, 67 pitaya proteins in total were found to interact with PiVX CP; however, every protein only appeared once. These pitaya proteins can be classified into chloroplast and mitochondria related proteins, ribosome related proteins and others. There were 8 quinoa proteins found to interact with PiVX CP in three independent experiments. Among these quinoa proteins, TOM1-like protein 9 (TOM1L-9), reticulon like protein B8 (RTNLB8) and pathogenesis-related protein PRB1-3-like (PRB1-3L) were chosen for further experiments. To investigate the effect of target protein on virus infection process, the quinoa target gene would be silenced before PiVX inoculation, and then virus RNA accumulation was quantified in silenced plants. Tobacco rattle virus (TRV)-based vector was used for virus-induced gene silencing on quinoa. Inoculated quinoa leaves expressed significant silencing at 3 days post inoculation with TRV-containing plant saps. However, there were no silencing effect on noninoculated systemic leaves of quinoa. PiVX inoculation was performed on these gene-silenced and unsilenced quinoa leaves. The results revealed whether the quinoa target genes were silenced or not, it had no effect on PiVX accumulation in quinoa. To confirm the interaction between quinoa target proteins and PiVX CP, these proteins were overexpressed with fused EGFP and mCherry tags in order to observe their co-localizations in plant cells. From the observation by fluorescence microscope and confocal laser scanning microscope, PRB1-3L was found at cell membrane, perinuclear region and cytoplasm. PiVX CP localized at cell membrane and within the nucleus but not in nucleolus. According to merged images, it suggested that these two proteins may interact with each other at cell membrane.