Project description:OsPI1 was isolated from rice and revealed to belong to the TPSI1/Mt4 family, a phosphorus deficiency responsive gene family. The importance of this family gene for phosphorus deficiency responses of plants had been already reported, though its actual role is still unclear. To understand the plants response mechanisms for phosphorus deficiency and the role of OsPI1 in it, we constructed a OsPI1 RNAi line (ospi1-2) for this study. We used the 22K rice Oligoarray from Agilent technologies to study the transcript profile in the shoots and roots of ospi1-2 and Oryza sativa L. cv. Kitaake wild type (WT) rice plants under constitutive and phosphorus deficiency at seedling stage. Keywords: Influences of OsPI1 knockdown
Project description:LC-MS/MS proteomics data was generated as part of an Isobaric tag (iTRAQ 4-plex) labeling experiment conducted on Oryza sativa ssp. japonica cv. Kitaake.
Project description:Purpose: Zinc deficiency (ZnD) and iron deficiency (FeD), excess Zn (ZnE) and cadmium exposure (CdE) are major environmental problems for crop cultivation. Methods: Applying Tag-Seq technology to leaves of Brassica rapa grown under FeD, ZnD, ZnE or CdE conditions, with normal conditions as a control, we examined global gene expression changes and compared the expression patterns of multiple paralogs. Results: We identified 812, 543, 331 and 447 differentially expressed genes under FeD, ZnD, ZnE and CdE conditions, respectively, in B. rapa leaves.Further analysis revealed that genes associated with Zn, Fe and Cd responses tended to be over-retained in the B. rapa genome. Most of these multiple-copy genes showed the same direction of expression change under stress conditions. Conclusion: We conclude that the duplicated genes involved in trace element responses in B. rapa are functionally redundant, making the regulatory network more complex in B. rapa than in Arabidopsis thaliana. In total, there were 15 Digital gene expression libraries, one for each of the three replicates under the four trace metal element treatments and normal nutrient supply conditions as a control.
Project description:Purpose: Zinc deficiency (ZnD) and iron deficiency (FeD), excess Zn (ZnE) and cadmium exposure (CdE) are major environmental problems for crop cultivation. Methods: Applying Tag-Seq technology to leaves of Brassica rapa grown under FeD, ZnD, ZnE or CdE conditions, with normal conditions as a control, we examined global gene expression changes and compared the expression patterns of multiple paralogs. Results: We identified 812, 543, 331 and 447 differentially expressed genes under FeD, ZnD, ZnE and CdE conditions, respectively, in B. rapa leaves.Further analysis revealed that genes associated with Zn, Fe and Cd responses tended to be over-retained in the B. rapa genome. Most of these multiple-copy genes showed the same direction of expression change under stress conditions. Conclusion: We conclude that the duplicated genes involved in trace element responses in B. rapa are functionally redundant, making the regulatory network more complex in B. rapa than in Arabidopsis thaliana.
Project description:For identification of genes up-regulated in RCc3:OsNAC6, GOS2:OsNAC6 plants, total RNA (100 μg) was prepared from root tissues of 14-d-old transgenic and non-transgenic rice seedlings (Oryza sativa cv Nipponbare) grown under normal growth conditions.
Project description:For identification of genes up-regulated in RCc3:OsNAC5, GOS2:OsNAC5 plants, total RNA (100 μg) was prepared from root tissues of 14-d-old transgenic and non-transgenic rice seedlings (Oryza sativa cv Nipponbare) grown under normal growth conditions.
Project description:For identification of genes up-regulated in RCc3:OsNAC1, GOS2:OsNAC1 plants, total RNA (100 μg) was prepared from root tissues of 14-d-old transgenic and non-transgenic rice seedlings (Oryza sativa cv Nipponbare) grown under normal growth conditions.
Project description:For identification of genes up-regulated in OsCc1:AP37, OsCc1:AP59 plants, total RNA (100 μg) was prepared from leaf tissues of 14-d-old transgenic and non-transgenic rice seedlings (Oryza sativa cv Nipponbare) grown under normal growth conditions.
Project description:For identification of genes up-regulated in RCc3:OsNAC10, GOS2:OsNAC10 plants, total RNA (100 μg) was prepared from root and leaf tissues of 14-d-old transgenic and non-transgenic rice seedlings (Oryza sativa cv Nipponbare) grown under normal growth conditions.
