By recent advance in evolutionary biology, the majority of eukaryotes are classified into six eukaryotic assemblages called as "supergroups". However, several eukaryotic groups show no clear evolutionary affinity to any of the six supergroups. Centrohelida, one of major heliozoan groups, are such an unresolved lineage. In this study, we newly determined the genes encoding translation elongation factor 2 (EF2), cytosolic heat shock protein 70 (HSP70), and cytosolic heat shock protein 90 (HSP90) from the centroheliozoan Raphidiophrys contractilis. The three Raphidiophrys genes were then combined with previously determined actin, alpha-tubulin, beta-tubulin, and SSU rRNA sequences to phylogenetically analyze the position of Centrohelida in global eukaryotic phylogeny. Although the multi-gene data sets examined in this study are the largest ones including the centroheliozoan sequences, the relationships between Centrohelida and the eukaryotic groups considered were unresolved. Our careful investigation revealed that the phylogenetic estimates were highly sensitive to genes included in the multi-gene alignment. The signal of SSU rRNA and that of alpha-tubulin appeared to conflict with one another: the former strongly prefers a monophyly of Diplomonadida (e.g., Giardia), Parabasalia (e.g., Trichomonas), Heterolobosea (e.g., Naegleria), and Euglenozoa (e.g., Trypanosoma), while the latter unites Diplomonadida, Parabasalia, Metazoa, and Fungi. In addition, EF2 robustly unites Rhodophyta and Viridiplantae, while the remaining genes considered in this study do not positively support the particular relationship. Thus, it is difficult to identify the phylogenetic relatives of Centrohelida in the present study, since strong (and some are conflicting) gene-specific "signals" are predominant in the current multi-gene data. We concluded that larger scale multi-gene phylogenies are necessary to elucidate the origin and evolution of Centrohelida.