Project description:Identification of putative targets of AP3/PI

Project description:Combinatorial activities of SHORT VEGETATIVE PHASE and FLOWERING LOCUS C define distinct modes of flowering regulation in Arabidopsis

Project description:Combinatorial activities of SHORT VEGETATIVE PHASE and FLOWERING LOCUS C define distinct modes of flowering regulation in Arabidopsis

Project description:We were interested in identifying targets of novel putative miRNAs we identified from small RNA sequencing libraries of Arabidopsis shoots. The small RNA (smRNA) sequencing libraries were made to identify changes in abundance of specific smRNAs in response to developmental transitions in Arabidopsis thaliana shoots, with special focus on vegetative phase change. We specifically wanted to separate the temporal changes in gene expression that result from vegetative phase change and those from flowering. Because of the close timing between the juvenile-to-adult and adult-to-reproductive developmental transitions in Arabidopsis grown under long day conditions, we used the late-flowering genotype FRI;FLC developed by the lab of Richard Amasino by introgressing the FRI allele from Sf-2 into the Col-0 genetic background, which is fri;FLC. For the early flowering genotype, we used FRI;flc-3, also developed by the Amasino lab by EMS-mutagenizing FRI;FLC, identifying early flowering mutants, and backcrossing multiple times to eliminate other EMS-induced mutations. The onset of vegetative phase change in FRI;FLC and FRI;flc-3 under our growth conditions was identical, but the progression was slower in FRI;FLC. By sequencing small RNAs from shoot apices at different time points and fully-expanded leaves at different positions on the shoot and comparing the results between the two genotypes, we were able to obtain a clear picture of changes in small RNA abundance in response to vegetative phase change and flowering in Arabidopsis. We then used the remaining RNA to make genome-wide mapping of uncapped and cleaved transcripts (GMUCT) 2.0 libraries of a subset of our samples. GMUCT 2.0 allows you to identify RNAs that are 1) uncapped and in the process of 5’->3’ exonuclease degradation and 2) miRNA and siRNA-mediated cleavage products. We wanted to use these GMUCT 2.0 libraries to identify targets of novel putative miRNAs discovered by our smRNA sequencing, thereby supporting the idea that these novel putative miRNAs are in fact functional.

Project description:Identification of WUSCHEL direct targets.

Project description:Genomewide identification of LHY binding targets.

Project description:Identification of BABY BOOM downstream targets

Project description:Genomewide identification of LHY binding targets

Project description:Identification of AtGRP7 targets by iCLIP

Project description:FLP and MYB88 are two paralogous MYB proteins, regulating the symmetric division of guard mother cell during Arabidopsis stomatal development. To understand their molecular functions, we performed genome-wide identification of FLP/MYB88 binding targets using ChIP-chip with FLP/MYB88 antibody. By comparing ChIP-chip between wild-type and flp-1 myb88 lines, a total genes were identified as putative direct targets for FLP/MYB88.