Abstract EN:

The RNA binding protein CUGBP1 is involved in regulation of alternative splicing, mRNA stability and translation. These functions appear conserved across evolution and may lead to pathological conditions in situations of CUGBP1 gain or loss of function. In order to determine the real extent of the regulations by CUGBP1 we realised two different studies aimed at identifying the targets for CUGBP1. First, based on an in silico approaches, we identify the mRNA encoding the protein CD9 as a direct target for CUGBP1-mediated regulation. In the second study I developed a Cross-link ImmunoPrecipitation procedure for CUGBP1 in human cells and identified the in vivo binding sites and targets by SOLiD deep sequencing. The in vivo binding sites identified allow us to present a genome wide landscape of CUGBP1 binding targets. These targets are potentially dis-regulated in loss of function for CUGBP1. The binding sites identified should allow us to refine the prediction algorithms for CUGBP1 binding sites thereby permitting the identification of the CUGBP1 target in any cellular context. This approach may prove especially useful in conditions where CUGBP1 is either misexpressed or mislocalized.