Sonic hedgehog signaling transduction plays crucial roles in the development of zebrafish eye. From the split of anterior neural plate into two bilateral optic primodia (morphogenesis) to the differentiation of seven major neurons in the neural retina (neurogenesis), and then the neural progenitor cells proliferation in the CMZ (ciliary marginal zone) corresponding to eye growth region at later embryonic stage, all depends on the shh signaling pathway. To dissect the functional roles of shh in the eye development of zebrafish in detail, I have constructed the Cr1.3-Shh-IRES- GFP chimera gene and microinjected into the zebrafish eggs. The lens-specific βB1-crystallin promoter drives the expression of shh protein in the lens ectopically. We assumed that the Shh protein may affect the development of retina by diffusion; and simultaneously the transgenic fish containing this construct can be screened by the expression of GFP. Two zebrafish transgenic stable lines No.1&No.19 were obtained from 28 F0 transgenic fish. Both lines express Shh protein ectopically in the lens, we found that some melanocyte-like cells clustering in the pupil region. This observation inferred three hypothetical possibilities that may lead to such a phenotype: the transdifferentiation of neural progenitor cells (from CMZ), cells of RPE proliferation or the chemoattraction role of shh. We suggested that the melanocyte-like cell aggregates were indeed melanocytes as identified by transient transgenic assay using the promoter of melanocyte-specific gene marker, MITF (microphthalamia -associated transcription factor). Furthermore, I proved that the Shh protein has the role of chemoattraction to guide the melanocyte migration by in vitro transplantation. On the other hand, I found that the pupil of transgenic stable line fish seemed to be smaller than wild type fish, and the three major layers of neural retina (GCL, INL and ONL) seems to be more proliferated. We suggested that shh protein promoted the proliferation of neural progenitor cells in CMZ, and resulted in the smaller pupil. Then, these cells received some other signals from developing eye and specified into seven types of neurons in the neural retina. In the future, in situ hybridization and the immunohistochemistry may pave the ways to elucidate the more detailed fuction of Shh during the eye development of zebrafish and to unravel the molecular mechanism underlying this process.