Project description:Revealing the binding sites of endogenous SNRPA1 using irCLIP (cross-linking immunoprecipitation).

Project description:Identifying SF3B1 binding sites across the transcriptome

Project description:Identifying SigG1 binding sites in Streptomyces tsukubaensis

Project description:Identifying Lsr2 binding sites in Streptomyces venezuelae

Project description:Assessing the influence of RNA structural and sequence variations on SNRPA1 binding preference in vitro

Project description:Identifying Ipr1 binding sites in RAW264.7 cells using ChIP-seq

Project description:Identifying LINC00899 binding sites in HeLa cells with CHART-seq

Project description:SNRPA1 BindNSeq

Project description:Revealing the binding sites of endogenous SF3B1 using HITS-CLIP (high-throughput sequencing coupled with cross-linking immunoprecipitation).

Project description:Crosslinking and immunoprecipitation (CLIP) is increasingly used to map transcriptome-wide binding sites of RNA-binding proteins (RBPs). We developed a method for CLIP data analysis and applied it to compare 254 nm CLIP with PAR-CLIP, which involves crosslinking of photoreactive nucleotides with 365 nm UV light. We found small differences in the accuracy of these methods in identifying binding sites of HuR, a protein that binds low-complexity sequences and Argonaute 2, which has a complex binding specificity. We show that crosslink-induced mutations lead to single-nucleotide resolution for both PAR-CLIP and CLIP. Our results confirm the expectation from original CLIP publications that RNA-binding proteins do not protect sufficiently their sites under the denaturing conditions used during the CLIP procedure, and we show that extensive digestion with sequence-specific ribonucleases strongly biases the set of recovered binding sites. We finally show that this bias can be substantially reduced by milder nuclease digestion conditions.