Project description:As the most ubiquitous internal modification of eukaryotic mRNA, m6A (N6-methyladenosine) modification plays a vital role in almost every aspect of mRNA metabolism. However, the evidence of m6A in regulating the alternative polyadenylation (APA) is limited. APA is controlled by a large protein-RNA complex with many components including CPSF30. Arabidopsis CPSF30 has two isoforms, the longer one named CPSF30-L containing an additional YTH (YT512-B Homology)-domain in the C terminus, which is unique in plant. In this study, we revealed that m6A modification directly regulated APA, by proving the capability of Arabidopsis CPSF30-L YTH domain binding to m6A substrate by using in vitro assay and structural studies. We observed that extensive genes shifted their poly(A) sites in cpsf30-2 and found that numerous genes altered polyadenylation site (PAS) that correlated well with previously identified m6A peaks, indicating that genes carry m6A modification are prone to be regulated by APA. Moreover, we found that several important genes involved in nitrate metabolism are amongst those genes with APA site alteration in cpsf30-2.And we could rescue these APA and nitrate metabolism defects by introducing the wild-type CPSF30-L, but not by m6A-binding defective mutants (W259A, W310A or Y319A), which explained the nitrogen signaling defects of cpsf30-2 discovered previously. Taken together, our results demonstrated that m6A modification could directly regulate APA in Arabidopsis and revealed the function of m6A reader CPSF30-L in nitrate signaling by controlling APA regulation. This study will shed new lights on the roles of m6A modification during RNA 3’-end processing in plant development.
Project description:Analysis of flg22-induced transcriptional changes in mpk3, mpk4 and mpk6 mutants. - 2 weeks old seedlings compared for transcriptome after a 30min mock or 1µM flg22 treatment.
Project description:au10-07_mpk4gof - mpk4/mpk4 gof vs mpk4/mpk4 vs col0 - Genes regulated by MPK4 pathway. - In order to study of the genes controlled by MPK4 pathway we generate mpk4 complemented lines expressing active MPK4 (MPK4 GOF). For the transcriptome analysis we compare the MPK4 GOF to mpk4/MPK4 (complemented mpk4 mutant with a wt MPK4) and to Col0. Keywords: genotype comparaison
Project description:inra12-05_mut_flg_ii-FLG-MPKs ra12-05_mut_flg_ii - inra12-05_mut_flg_ii - Analysis of flg22-induced transcriptional changes in mpk3, mpk4 and mpk6 mutants. - 2 weeks old seedlings compared for transcriptome after a 30min mock or 1µM flg22 treatment.