Project description:Characterization of RNA processing events dependent on U2AF-related proteins PUF60 and RBM39. PUF60 (poly-U-binding factor 60 kDa, also known as FIR, Hfp or Ro-bp1) is a splicing factor homologous to the 65 kD subunit of the auxiliary factor of U2 small nuclear ribonucleoprotein (U2AF65). PUF60 has two central RNA recognition motifs and a C-terminal U2AF homology motif (UHM), but lacks the N terminal arginine/serine-rich (RS) and UHM ligand motif (ULM) domains present in U2AF65. PUF60 activity, in conjunction with U2AF, facilitates the association of U2 snRNP with the pre-mRNA. PUF60 and U2AF65 can bind SF3b155 ULMs simultaneously and noncompetitively. RBM39 (also known as CAPERα, HCC1, FSAP59 or RNPC2) is an RNA processing factor and a hormone-dependent transcriptional coactivator. RBM39 domain structure is similar to PUF60, except for the extra N-terminal RS domain with unknown function. To understand function of the two proteins on a genome-wide scale, each protein was individually depleted from human embryonic kidney cell line 293 using RNAi to systematically characterize the PUF60- and RBM39-dependent exon usage.
Project description:We performed RNA-seq of 293T cells post depletion and SETD2 or hnRNP L to compare their global transcriptome profile. We also looked at the distribution of the histone mark H3K36me3 in wild type 293T to correlate it with the observed transcriptome changes upon SETD2 and hnRNP L depletion. We rescued SETD2 knock out 293T cells with SETD2 FL (Full Length), FLΔSRI (FLwoSRI) and FLΔSHI (FLwoSHI) and performed H3K36me3 ChIP-Seq.
Project description:The mechanism of mecciRNA degradation remains unknown. To investigate the degradation of mecciRNAs, we performed mitochondrial RNA sequencing and total RNA sequencing of 293T, HeLa, and N2a cells. To investigate the degradation mechanism of mecciRNAs, RIP-seq was conducted in 293T and C. elegans. Small RNA sequencing of mitochondrial sucrose gradient fractions was performed to identify mecciRNA degradation fragments.
Project description:To verify Znf417 and Znf587 knock out whether leads to HERV-K element reactivation, we performed RNA-seq on Znf417/Znf587 double knock out (DKO) 293T cell lines. We did not find any significant changes in HERVK expression.
Project description:PA-X is a small accessory protein that modulates the virulence of various influenza A virus both in mammals and birds. However, the specific role of PA-X in the pathogenesis of highly pathogenic avian influenza virus (HPAIV) H7N9 subtype in mammals and avian species is largely unknown. By functional analysis, we want to investigate critical amino acids that contribute to the host shutoff ability of the PA-X protein of the H7N9 virus in 293T cells