Emerging evidence suggests that the localization of viral movement proteins (MPs) to both plasmodesmata (PD) and viral replication complexes (VRCs) is the key to viral cell-to-cell movement. However, the molecular mechanism that establishes the subcellular localization of MPs is not fully understood. Here, we investigated the PD localization pathway of red clover necrotic mosaic virus (RCNMV) MP and the functional regions of MP that are crucial for MP localization to PD and VRCs. Disruption analysis of the transport pathway suggested that RCNMV MP does not rely on the ER-Golgi pathway or the cytoskeleton for the localization to the PD. Furthermore, mutagenesis analysis identified amino acid residues within the alpha helix regions responsible for localization to the PD or VRCs. These α-helix regions were also essential for efficient viral cell-to-cell movement, highlighting the importance of these dynamic localization of the MPs for viral infection.