Epstein-Barr virus (EBV)-encoded RNAs (EBERs) are structurally conserved small, noncoding RNAs constitutively expressed in EBV infection. Although primarily localised in the nucleus, EBERs are found in the cytoplasm and exosomes. However, the mechanism(s) of EBERs transport is not known. This study aimed to investigate the structural impact of EBER1 on its transport. EBER1 stem-loop (SL) deletion mutants (ΔSL1, ΔSL3 and ΔSL4) were created and stably transfected into HEK293T cells. The expression of EBER1 was quantified in total cell, nuclear, cytoplasmic and exosomal fractions. The quantification was performed in the presence of physiological expression of RPL22 and La, and after silencing them. These proteins are believed to be involved in EBER1 transport and secretion. Compared to the wildtype EBER1 transfectants, the expression level of EBER1 gene in all mutants was significantly lower in the total cell, cytoplasmic and exosomal fractions. However, ΔSL3 mutant showed significant nuclear retention. Silencing RPL22 resulted in increased nuclear-cytoplasmic trafficking of EBER1. Silencing La protein did not affect EBER1 secretion. Alternatively, the store-operated intracellular Ca2+ was found to correlate with EBER1 expression in exosomes. Taken together, EBER1 structure and its interaction with RPL22 appeared to be important in the nuclear-cytoplasmic transport of the RNA.