[mir122 deficiency inhibits differentiation of zebrafish hepatoblast into hepatocyte].

As one of the largest internal organs in the body, liver is very important for metabolism, detoxification and homeostasis. It's reported that liver development is accurately regulated by a gene regulating network consists of FGF, BMP, WNT signal pathways and a lot of transcription factors. However, the functions of microRNA are poorly understood during liver formation. In recent years, it has been reported that mir122 is highly expressed in hepatocytes, and plays a vital role in the metabolic processes of the liver, but its function in liver development remains unclear. In this study, we report that mir122 is specifically expressed in zebrafish (Danio rerio) embryonic liver, and its expression level is notably increased during the differentiation process of hepatoblast into hepatocyte. mir122 inactivation by an antisense morpholino has no influence on the specification, budding and outgrowth of hepatoblast. However, zbrafish hepatoblast can not differentiate into hepatocyte without mir122. Therefore, mir122 is not only involved in liver metabolic functions, but also indispensable for hepatoblast differentiation.

Microarray analysis of the phytoremediation and phytosensing of occupational toxicant naphthalene.

Naphthalene is of global environmental concern because it is assumed to contribute considerably to human cancer risk. Plants are important in removing naphthalene from the atmosphere and soil. However, there remains insufficient knowledge on plant response to this compound. To determine the mechanism of naphthalene uptake and transduction in plants, as well as plant response to this compound, a microarray system was used to analyze gene expression patterns in Arabidopsis thaliana after irrigation with 2.0mM naphthalene. A total of 247 differentially expressed genes were identified as upregulated by naphthalene. These genes might specifically contribute to naphthalene uptake, transformation, conjugation, and compartmentalization in the plant. The potential role of upregulated genes in plant defense to naphthalene and the use of phytosensing for naphthalene detection were also discussed.