Project description:The FUSCA3 (FUS3) transcription factor is considered to be a master regulator of seed maturation because a wide range of seed maturation events are impaired in its defective mutant. To comprehensively identify genes under the control of FUS3, two types of microarray experiments were performed. First, transgenic plants in which FUS3 expression could be induced by the application of estrogen (ESTR) were used to identify the genes up-regulated in young seedlings of Arabidopsis in response to ectopic expression of FUS3. Second, transcriptomes were compared between fus3 mutant and wild type developing seeds. Combining the results of these experiments identified genes under relatively immediate and robust control of FUS3 during seed development. The analyses expanded the range of types of genes under the control of FUS3. The genes positively controlled by FUS3 are not confined to previously known seed maturation-related genes and include those for production of secondary metabolites such as glucosinolates, phenylpropanoids and falvonoids, and primary metabolism such as photosynthesis and fatty acid biosynthesis. Furthermore, several different patterns were identified in the manner of ectopic activation by FUS3 including the kinetics and abscisic acid (ABA) requirement of downstream genes depending on their natures of developmental regulation, suggesting mechanistic diversity of gene regulation by FUS3.

Project description:Gene regulation by the seed maturation master regulators, LEC1, LEC2, FUS3 and ABI3 [set 1]

Project description:Gene regulation by the seed maturation master regulators, LEC1, LEC2, FUS3 and ABI3 [set 2]

Project description:The FUSCA3 (FUS3) transcription factor is considered to be a master regulator of seed maturation because a wide range of seed maturation events are impaired in its defective mutant. To comprehensively identify genes under the control of FUS3, two types of microarray experiments were performed. First, transgenic plants in which FUS3 expression could be induced by the application of estrogen (ESTR) were used to identify the genes up-regulated in young seedlings of Arabidopsis in response to ectopic expression of FUS3. Second, transcriptomes were compared between fus3 mutant and wild type developing seeds. Combining the results of these experiments identified genes under relatively immediate and robust control of FUS3 during seed development. The analyses expanded the range of types of genes under the control of FUS3. The genes positively controlled by FUS3 are not confined to previously known seed maturation-related genes and include those for production of secondary metabolites such as glucosinolates, phenylpropanoids and falvonoids, and primary metabolism such as photosynthesis and fatty acid biosynthesis. Furthermore, several different patterns were identified in the manner of ectopic activation by FUS3 including the kinetics and abscisic acid (ABA) requirement of downstream genes depending on their natures of developmental regulation, suggesting mechanistic diversity of gene regulation by FUS3. This Series contains two different types of microarray experiments. First, seven-day-old seedlings of the ESTR-inducible FUS3 transgenic plants (ER-FUS3) were cultured for 3, 6, 12, 24, 36 or 48 h in a standard liquid medium or in that containing ESTR, ABA or both. RNA was prepared from each time point sample of each treatment and used to prepare Cy5-labeled cRNA, which was subsequently probed by DNA array with the reference Cy3-labeled cRNA prepared from the time zero untreated seedlings. Two biological replicates per treatment. Second, transcriptomes were compared between developing seeds of the wild-type (Col-0) and the fus3-3 mutant. This experiment contains two seed developmental stages, 8 days after flowering (DAF; bent cotyledon stage) and at 12 DAF (green cotyledon stage). Sample pairs in three biological replicates were analyzed by the two-color method. Dye-swapped hybridizations were performed in every replicate.

Project description:During seed maturation, the embryo accumulates nutrition storage compounds such as oil and reservve proteins, and acquires dormancy and desiccation tolerance. Arabidopsis transcription factors LEC1, LEC2, FUS3 and ABI3 are known as the master regulators of seed maturation because all these events during the seed maturation are severely affected by the respective mutants. In addition, the lec1, lec2 and fus3 mutants exhibit some heterochronic characteristics, as exemplified by the development of true leaf-like cotyledons during embryogenesis. To characterize these mutants at the whole genome expression level, microarray experiments were performed.

Project description:During seed maturation, the embryo accumulates nutrition storage compounds such as oil and reservve proteins, and acquires dormancy and desiccation tolerance. Arabidopsis transcription factors LEC1, LEC2, FUS3 and ABI3 are known as the master regulators of seed maturation because all these events during the seed maturation are severely affected by the respective mutants. In addition, the lec1, lec2 and fus3 mutants exhibit some heterochronic characteristics, as exemplified by the development of true leaf-like cotyledons during embryogenesis. To characterize these mutants at the whole genome expression level, microarray experiments were performed.

Project description:During seed maturation, the embryo accumulates nutrition storage compounds such as oil and reserve proteins, and acquires dormancy and desiccation tolerance. Arabidopsis transcription factors LEC1, LEC2, FUS3 and ABI3 are known as the master regulators of seed maturation because all these events during the seed maturation are severely affected by the respective mutants. In addition, the lec1, lec2 and fus3 mutants exhibit some heterochronic characteristics, as exemplified by the development of true leaf-like cotyledons during embryogenesis. To characterize these mutants at the whole genome expression level, microarray experiments were performed. Developing seeds were dissected from the siliques of the lec1-1, lec2-1, or fus3-3 homozygous plants or the respective wild type plants (Col-0 for fus3-3, WS for lec1-1 and lec2-1) at 8 and 12 days after flowering. Seeds samples were obtained from triplicate batches of plants and used for RNA preparation.

Project description:During seed maturation, the embryo accumulates nutrition storage compounds such as oil and reserve proteins, and acquires dormancy and desiccation tolerance. Arabidopsis transcription factors LEC1, LEC2, FUS3 and ABI3 are known as the master regulators of seed maturation because all these events during the seed maturation are severely affected by the respective mutants. In addition, the lec1, lec2 and fus3 mutants exhibit some heterochronic characteristics, as exemplified by the development of true leaf-like cotyledons during embryogenesis. To characterize these mutants at the whole genome expression level, microarray experiments were performed. Developing seeds were dissected from the siliques of the abi3-6 homozygous plants or the respective wild type plants (Col-0) at 12 and 16 days after flowering. Seeds samples were obtained from triplicate batches of plants and used for RNA preparation.

Project description:Gene regulation by the seed maturation master regulators, LEC1, LEC2, FUS3 and ABI3

Project description:SEEDSTICK Is a Master Regulator of Development and Metabolism in Arabidopsis Seed Coat