Project description:ra09-02_tctp - knockout - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of tctp-2 knock out versus wild type Keywords: gene knock out
Project description:ra09-02_tctp - knockout - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of tctp-2 knock out versus wild type Keywords: gene knock out 2 dye-swap - CATMA arrays
Project description:ra09-02_tctp - over expression - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of 35S::AtTCTP versus wild type Keywords: gene knock in (transgenic) 2 dye-swap - CATMA arrays
Project description:ra09-02_tctp - rnai - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of 35S::RNAi-AtTCTP versus wild type Keywords: normal vs rnai mutant comparison
Project description:ra09-02_tctp - over expression - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of 35S::AtTCTP versus wild type Keywords: gene knock in (transgenic)
Project description:ra09-02_tctp - rnai - Identification of effector genes that act downstream of AtTCTP, using knockout ( tctp-2), RNAi expressing line (35S::RNAi-AtTCTP) and over expressing line (35S::AtTCTP) - transcriptome analysis in leaf of 35S::RNAi-AtTCTP versus wild type Keywords: normal vs rnai mutant comparison 2 dye-swap - CATMA arrays
Project description:In order to identify putative downstream target genes of RBE, we sequenced mRNA from dexamethasone (DEX) and mock treated transgenic Arabidopsis line 35S:GR-RBE (RBE coding region fused to a glucocorticoid receptor domain driven by the constitutive 35S promoter) floral tissues. We compared the results from DEX and mock treatments and focused on the 832 genes whose expression was significantly reduced (P < 0.025) by 2-fold or more in DEX as compared to mock-treated plants. In this analysis, we identified MIR164c (EEP1) as a candidate target of RBE, which was further confirmed by other molecular and genetic analyses. Regulation of MIR164c by RBE is important for normal floral organ formation in Arabidopsis.
