Project description:Gene expression in pif3 mutant under dark and in wt under Red 1h and Red 18h

Project description:Expression data from Arabidopsis thaliana under dark and far-red light

Project description:Gene expression from Arabidopsis under high light conditions

Project description:Gene expression in pif3 mutant under dark and in wt under Red 1h and Red 18h

Project description:Expression data from Arabidopsis thaliana under dark and far-red light

Project description:The mRNA expression profiles of the WT and b''ab''b were analyzed in 1 hour 8 μmol/m2s red-light exposure and darkness after 4-day dark-grown. The gene expression changes was analyzed and compared between dark and red-light treated samples.

Project description:To investigate the molecular and physiological functions of SWAP1 in light signaling. We show that SWAP1 modulates global gene expression and alternative splicing both under dark and red light treated conditions

Project description:Purpose: The goals of this study are to compare the transcriptome profiling and alternative splicing (AS) profiling between Col-0 wild type and SFPS knockout mutant (sfps-2) through RNA-seq to determine the molecular mechanisms of how splicing factor SFPS regulates photomorphogenesis in Arabidopsis. Results: Using an optimized data analysis workflow, we mapped about 100 million sequence reads per sample to the Arabidopsis genome (TAIR10) and identified 1495 differentially expressed genes between Col-0 and mutant dark samples; 1361 differentially expressed genes between Col-0 and mutant red light treated samples; 4291 differentially expressed genes between Col-0 dark and red light treated samples; and 4479 differentially expressed genes between mutant dark and red light treated samples. Except for gene expression, we also discovered 788 differentially spliced bins between Col-0 and mutant dark samples; 827 differentially spliced bins between Col-0 and mutant red light treated samples; 610 differentially spliced bins between Col-0 dark and red light treated samples; and 405 differentially spliced bins between mutant dark and red light treated samples. Altered splicing of 9 genes was confirmed with qRT-PCR, demonstrating the high degree of sensitivity of the RNA-seq method. Conclusions: Our study represents the first detailed analysis of SFPS mutant transcriptomes, with biologic replicates, generated by RNA-seq technology. Our results show that SFPS regulates photomorphogenesis in Arabidopisis through regulating the splicing activity of light signaling genes, which helps us.

Project description:Gene expression from Arabidopsis under high light conditions

Project description:ChIP-Seq data from Arabidopsis thaliana under dark and far-red light