Hepatocellular carcinoma (HCC) is the most common fatal malignancy in Taiwan. To elucidate the aberrant genes expression in HCC, we used mRNA differential display and identified a novel gene with unknown functions which was frequently over-expressed in HCC, which is located at chromosome 11q12.2. Our previous study showed that the gene product was located to the nuclei, and named as Cancer Associated Nuclear Protein (CANP). In this study, we first compared the human CANP protein with homologues of other species. The peptide sequence analysis predicted several putative phosphorylation sites, including some are cell cycle related. Moreover, CANP protein contains KEN box and D-box motifs which suggests that CANP maybe a novel substrate of APC-cdh-1 or/and APC-cdc20 and degradated through the ubiquitin-proteasome pathway. There were also four possible sumoylation sites, which, however, could not be verified by immunoprecipitation (IP) and western blot using sumoylation assay. Besides, we showed that CANP had a shorter alternative splicing variant, which lacked the exon-3. Using the standard cell cycle progression of HeLa cells, we showed the mRNA level and protein levels of CANP increased dramatically from the G1/S phase transition and reached the peak in the S phase, and then decreased to the lowest level when cells in the M/G1 phase. Further, CANP exhibited a unique distribution pattern throughout the cell cycle, during the mitosis, CANP protein became dispersed in the cytoplasm, with weak ring-shape concentration around the chromatin, and marked concentration in the centrosomes. While in the interphase nuclei, CANP became condensed as large granules corresponding to the nucleoli. To elucidate the function(s) of CANP on the tumor cell growth, we used RNAi oligos to knockdown the expression of CANP. There was no significant difference on the anchorage independent growth in soft agar assay and cell proliferation on MTT assay. However, the CANP RNAi oligos knockdown cells (HeLa, HA22T, HCC36, HBL435 and Au565) exhibited greatly reduced invasion capacity on the in vitro invasion assay. And there were several Mmps which were down-regulated after the CANP silencing. Moreover, we found that the protein level of two cell cycle related protein: cyclin B2 and cdc20 was depressed which were related to the cell migration after the CANP knockdown. It suggested that the reduction of cell migration and invasion capacity maybe caused by the depression of Mmps and the protein level of cyclin B2 and cdc20. Several important cell cycle related proteins, including cyclin A1 and cyclin B1. They accumulated after the suppression of CANP. These findings suggest that CANP plays a role in cell cycle. Notably, we also observed that the mRNA level of CANP was suppressed in 30 minutes after the UV exposure, but became rebound two hours later. These results implicate that CANP is sensitive to UV triggered DNA damage and probably involved in the damage repair.