Project description:Overexpression of MADS29 results in severely dwarfed phenotype, resulting from a shift in auxin-cytokinin ratio in favor of cytokinins. To see the extent of change in gene expression in the leaves of the transgenic plants, whole genome transcript analysis was carried out using microarray. Three biological replicates of MADS29 OX (overexpression) lines and Wild Type PB1 (control) plants were used for microarray study

Project description:Overexpression of MADS29 results in severely dwarfed phenotype, resulting from a shift in auxin-cytokinin ratio in favor of cytokinins. To see the extent of change in gene expression in the leaves of the transgenic plants, whole genome transcript analysis was carried out using microarray.

Project description:The gene expression data of OsNPR1 overexpression and its wild type Taipei 309 plants.

Project description:Higher plants have developed sophisticated mechanisms to efficiently acquire and use micronutrients such as copper and iron. In the present work, we studied effects produced by the presence of a wide copper range in growth media and altered copper transport on iron homeostasis in Oryza sativa plants. The global analysis of gene expression in the rice seedlings grown under copper deficiency versus excess in the medium showed an increased expression of the genes involved in iron homeostasis. Different iron-related genes are expressed under either copper deficiency and excess, such as those that encode ferredoxin and transcriptional regulator IRON-RELATED TRANSCRIPTION FACTOR 2 (OsIRO2), respectively. As expected, the expression of OsCOPT1, which encodes a high affinity copper transport protein, was up-regulated under copper deficiency, and the expression of OsIRO2 targets were increased under copper excess. Arabidopsis COPT1 overexpression (C1OE) in rice causes root shortening under copper excess, modifies the expression of the putative Fe-sensing factor HEMERYTHRIN MOTIF-CONTAINING REALLY INTERESTING NEW GENE- AND ZINC-FINGER (OsHRZ1) and enhances the expression of OsIRO2 and its targets, which suggests a role of copper in iron signaling. Our studies conducted under simultaneous copper and iron deficiencies indicate that C1OE plants are more sensitive than the wild-type controls to root growth inhibition. The C1OE rice plants grown on soil contained higher endogenous iron concentration in grains than the wild-type plants (both brown and white grains). The results obtained herein showed the interaction between homeostatic networks of iron and copper, and suggest that strategies to obtain crops with optimized nutrient concentrations in edible parts should take into account this interaction.

Project description:To reveal the underlying molecular mechanism of jasmonate inhibits gibberellins signaling in rice, we performed transcriptional profiling of wild type nipponbare and mutant coi1-13 plants on a global scale using the Affymetrix GeneChip Rice Genome Array

Project description:Transcriptional profiles of non-transgenic and OsEREBP1 over-expressed transgenic plants

Project description:Global gene expression profiles of Oryza sativa wild type Nipponbare and mutant coi1-13

Project description:Overexpression of OsMYB103L leads to leaf rolling in transgenic rice plants. To explore the possible molecular mechanism of OsMYB103L’s effects on rice leaf development, we examined the expression profiles of OsMYB103L overexpression transgenic rice plants and wild type leaf blades using Digital Gene Expression (DGE) profiling analysis.

Project description:To reveal the underlying molecular mechanism of Gif1 action in the control of grain filling and yield improvement, we performed transcriptional profiling of wild type Zhonghua11 and mutant gif1 plants in early filling stage on a global scale using the Affymetrix GeneChip Rice Genome Array Keywords: Filling stage

Project description:Global gene expression profiles of Oryza sativa wild type Zhonghua11 and mutant gif1 in filling stage