Regulation of eukaryotic messenger RNAs (mRNAs) is an important factor in controlling gene expression. Cellular mRNAs associate to RNA binding proteins to go through RNA metabolism, including processing, export, turnover, localization, and translation of mRNA. Rbp1p, an RNA-binding protein, was previously characterized as a negative growth regulator in Saccharomyces cerevisiae. Overexpression of Rbp1p, but not the N-terminally truncated form, decreases the porin mRNA expression by enhancing degradation. In vitro binding assay indicates Rbp1p binds the (C/G)U-rich element of the porin mRNA 3’-untranslated region (3’UTR). Our lab concluded that Rbp1p is involved in the post-transcriptional regulation of porin mRNA. Plating result showed the growth rate is increased in yeast lacking Rbp1p; however, the growth rate of yeast was roughly the same whether expression of exogenous Rbp1p in wild-type or rbpl△ yeast. We suspected that Rbp1p might regulate its own expression. We showed that overexpression of exogenous Rbp1p decreased endogenous Rbp1p mRNA and protein level. Using reporter assay, we demonstrated that Rbp1p decreased the expression of reporter carrying 3’UTR of RBP1. We further determined the length of RBP1 mRNA 3’UTR and searched for several conserved regions, including putative AU-rich element and polyuridine-rich sequences were located in RBP1 mRNA 3’UTR. We demonstrated that RNA regulate its own expression. We showed that overexpression of exogenous Rbp1p recognition ability of Rbp1p is needed for its autoregulation. Moreover, our results indicated autoregulation of Rbp1p depends on decapping factors, Dhh1p and Lsm1p-7p-Pat1 complex. Theis observation suggests autoregulation of Rbp1p through 5’ to 3’ mRNA decay mechanism. 　　Previous yeast two-hybrid result in our lab showed the Rbp1p interacts with porin. We speculated that the interaction between porin and Rbp1p might involve in Rbp1-mediated porin mRNA degradation. However, we observed that amount of porin was very similar after epichromosomal (gene in a 2μ plasmid controlled by an ADH1 promoter), and chromosomal expression (endogenous gene controlled by the endogenous promoter). On the other hand, we showed exogenous porin decrease endogenous POR1 mRNA both in wild-type and rbp1