Citron kinase (CRIK) belongs to an evolutionarily conserved family of serine-threonine kinases and is a target molecule for activated Rho. CRIK has been suggested to be involved in regulating cytokinesis in mammalian cells due to the inhibition of cytokinesis by overexpressing dominant negative CRIK. It accumulates at the cleavage furrow and neuronal tissues that implies its roles in early development and neurogenesis. In Drosophila melanogaster, CRIK is essential for normal cell division in all tissue of Drosophila, while the knock out citron kinase allows early embryonic development, but shows defective neurogenesis in mice. To further study the role of CRIK in development, we utilized the recently developed vertebrate model, zebrafish. In this study, we first isolated the zebrafish citron kinase (zcrik) by in silica cloning and RACE experiments. Secondly, the zcrik expression patterns were examined using in situ hybridization and RT-PCR. We found that zcrik mRNA was detected by RT-PCR in adult zebrafish tissues including brain, eye, ovary, testis, kidney, spleen and gill. Whole-mount in situ hybridization of different developmental stages of zebrafish embryos revealed that zcrik expressed in the entire embryo until 18 hour post fertilization and the expression of zcrik mRNA was limit to the proliferate neuroblasts and tissues that is consistent with the expression pattern in mice. Lastly, to evaluate the functions of CRIK in zebrafish development, we applied etopic expression analysis and morpholino oligonucleotides (MO) knockdown to the developing zebrafish embryos. Functional analysis results demonstrated that gain or loss of function of zCRIK resulted defects in cytokinesis, epiboly formation and embryonic death. In addition, the MO-knockdown resulted in severe defects in CNS with little or no head structure formation, which are the characteristics of ventralized embryos at 24 hpf. These results suggest that, in addition to cytokinesis and neuronal development, citron kinase is also essential for gastrulation progressing and may be involved in dorsal-ventral patterning during development.