TAS1 trans-Acting siRNA Targets Are Differentially Regulated at Low Temperature, and TAS1 trans-Acting siRNA Mediates Temperature-Controlled At1g51670 Expression
スポンサーリンク
概要
- 論文の詳細を見る
To endure considerable fluctuations in temperature, plants need precise regulation of temperature-controlled gene expression. In this study, the involvement of TAS1 trans-acting siRNA (tasiRNA) in temperature-controlled gene expression was examined in Arabidopsis. The accumulation of TAS1 tasiRNA was downregulated at 4 °C. Concomitant with the reduction of TAS1 tasiRNA-mediated cleavage, expression of At1g51670, a target of TAS1 tasiRNA, was upregulated at 4 °C in the wild type but not in a dicer-like enzyme (DCL) 4 mutant (dcl4-2), which is impaired in tasiRNA biogenesis. The expression of At4g29760 and of At5g18040, further TAS1 tasiRNA targets, was upregulated both in the wild type and in dcl4-2 at 4 °C. However, after shifting the temperature to 22 °C, low-temperature-induced expression of At4g29760 rapidly dropped in the wild type, but not in dcl4-2. Thus TAS1 tasiRNA acted as a sweeper for the clearance of excess amounts of At4g29760 transcripts. Our data suggest that differential regulation of TAS1 tasiRNA targets is involved in temperature-controlled gene expression.
- 社団法人 日本農芸化学会の論文
著者
-
Saitoh Yasushi
United Graduate School Of Agricultural Sciences Iwate Univ.
-
Kume Kohei
United Graduate School of Agricultural Sciences, Iwate University
-
Tsutsumi Ken-ichi
United Graduate School of Agricultural Sciences, Iwate University
関連論文
- TAS1 trans-Acting siRNA Targets Are Differentially Regulated at Low Temperature, and TAS1 trans-Acting siRNA Mediates Temperature-Controlled At1g51670 Expression
- Antiproliferative Activity of Root Extract from Gentian Plant (Gentiana triflora) on Cultured and Implanted Tumor Cells
- Stress-Related Proteins Are Specifically Expressed under Non-Stress Conditions in the Overwinter Buds of the Gentian Plant Gentiana triflora
- TAS1 trans-Acting siRNA Targets Are Differentially Regulated at Low Temperature, and TAS1 trans-Acting siRNA Mediates Temperature-Controlled At1g51670 Expression
- Mapping Major Replication Origins on the Rice Plastid DNA