Prothymosin alpha (ptma) is a small (110 a.a., 12.5 kDa) and highly acidic (pI 3.5) nuclear protein. In cell culture experiments, ptma shows to be involved with proliferation, anti-apoptosis, and cell attachment. It also could be a useful marker in cancer diagnosis. However, its biological functions in vivo are still unclear. Here, I used zebrafish as a model to investigate the developmental expression and biological function of Ptma. Zebrafish ptma cDNA was encoded a 105-amino-acid-polypeptide. This sequence identified more than 50% with reported Ptma of mammalians, 60% with human, and up to 70% with amphibian. In RT-PCR and whole-mount in situ hybridization showed that ptma was a maternally inherited gene expressed at 1-cell stage, and continued to 7 dpf. At early blustrula stage, it expressed in all blastomeres. At segmentation stages, the ptma transcripts were restricted in the future neural tube, retina, otic placode, trigeminal nerve soma, pronephric ducts and brains, but were not found in somites, notochord or muscles. During pharyngeal period, ptma signals were observed in pectoral fin buds, skin, dorsal aorta and primordial of the posterior lateral lines. At early larval period (3-7 dpf), the expression was observed in aortic arches, heart, liver, thymus, swim bladder and guts. Ptma expression was basically conformed to the process of tissues and organs development except skeletons and muscles. These data suggested that Ptma played a role in cell proliferation that might be important for organogenesis. The germ line Tg(k18:ptma:rfp) (KPR) was established to over-expressed Ptma by promoter keratin 18 restricted in zebrafish epidermis labeled with red fluorescence. This transgenic line did not have exterior defects. The RFP signal was limited in nucleus and co-localized with BrdU signal. It suggested that Ptma over-expressed-cell was proliferating. KPR had more BrdU signals in the epidermis and thicker skin than WT did (KPR 0.0179 mm; WT 0.0125 mm), that meant over-expressed Ptma would activate cell proliferation. After low-doseage of UV-B irradiation, KPR showed a little more apoptotic signals compared to WT embryos. However, WT had much more serious damages than KPR after high-doesage UB-B exposure. On the basis of these observations, I propose that Ptma might promote proliferation and regulate apoptosis.