Caryopses of barley (Hordeum vulgare), like all other cereal seeds, are complex sink organs optimized for storage starch accumulation and embryo development. Their development from early stages after pollination to late stages of seed ripening has been studied in great detail. However, information on the caryopses diurnal adaptation to changes in light, temperature and alterations in phloem-supplied carbon and nitrogen remained unknown.
Significance of light, sugar, and amino acid supply for diurnal gene regulation in developing barley caryopses.
Age, Specimen part
View SamplesHigh temperature stress, like any abiotic stress, impairs the physiology and development of plants, including the stages of seed setting and ripening.
Transcriptome analysis of high-temperature stress in developing barley caryopses: early stress responses and effects on storage compound biosynthesis.
Age, Specimen part
View SamplesThis SuperSeries is composed of the SubSeries listed below.
Diurnal regulation of RNA polymerase III transcription is under the control of both the feeding-fasting response and the circadian clock.
Specimen part
View SamplesRNA polymerase III (pol III) synthesizes short non-coding RNAs, many of which, including tRNAs, Rpph1 RNA, Rn5s rRNA, and Rmrp RNA, are essential for translation. Accordingly, pol III activity is tightly regulated with cell growth and proliferation by factors such as MYC, RB1, TRP53, and MAF1. MAF1 is a repressor of pol III transcription whose activity is controlled by phosphorylation; in particular, it is inactivated through phosphorylation by mTORC1 kinase, a sensor of nutrient availability. Pol III regulation is thus sensitive to environmental cues, yet a diurnal profile of pol III transcription activity is so far lacking. Here we document pol III occupancy of its target genes in mouse liver during the diurnal cycle and show that pol III occupancy rises before the onset of the night, stays high during the night, when mice normally ingest food and when translation is increased, and decreases in daytime. By comparing diurnal pol III occupancy in wild-type mice, arrhythmic mice owing to inactivation of the Arntl gene, mice fed at regular intervals during both night and day, and mice lacking the Maf1 gene, we show that whereas higher pol III occupancy during the night reflects a MAF1-dependent response to feeding, the rise of pol III occupancy before the onset of the night reflects a circadian clock-dependent response. Thus, pol III transcription during the diurnal cycle is regulated both in response to nutrients and by the circadian clock, which allows anticipatory pol III transcription.
Diurnal regulation of RNA polymerase III transcription is under the control of both the feeding-fasting response and the circadian clock.
Specimen part
View SamplesThe purpose of our study was to identify expression signatures and molecular markers associated with tumor recurrence and survival in patients with locally advanced head and neck squamous cell carcinoma (HNSCC).
Gene expression signatures and molecular markers associated with clinical outcome in locally advanced head and neck carcinoma.
Sex, Specimen part
View SamplesThe Arabidopsis thaliana transcription factor LATERAL ORGAN BOUNDARIES (LOB) is expressed in the boundary between the shoot apical meristem and initiating lateral organs. To identify genes regulated by LOB activity, we used an inducible 35S:LOB-GR line. This analysis identified genes that are differentially expressed in response to ectopic LOB activity.
Arabidopsis lateral organ boundaries negatively regulates brassinosteroid accumulation to limit growth in organ boundaries.
Age, Specimen part, Treatment
View SamplesMouse FGF15 and human FGF19 are orthologous proteins that regulate bile acid metabolism. However, other hepatic functions of FGF15/19 are not well characterized.
FGF15/19 regulates hepatic glucose metabolism by inhibiting the CREB-PGC-1α pathway.
Sex, Specimen part
View SamplesDecreased bile secretion in rodents by either ligation of the common bile duct or induction of cirrhosis causes changes in the small intestine, including bacterial overgrowth and translocation across the mucosal barrier. Oral administration of bile acids inhibits these effects. The genes regulated by FXR in ileum suggested that it might contribute to the enteroprotective actions of bile acids. To test this hypothesis, mice were administered either GW4064 or vehicle for 2 days and then subjected to bile duct ligation (BDL) or sham operation. After 5 days, during which GW4064 or vehicle treatment was continued, the mice were killed and their intestines were analyzed for FXR target gene expression.
Regulation of antibacterial defense in the small intestine by the nuclear bile acid receptor.
Sex, Treatment
View SamplesObstruction of bile flow results in bacterial proliferation and mucosal injury in the small intestine that can lead to the translocation of bacteria across the epithelial barrier and systemic infection. These adverse effects of biliary obstruction can be inhibited by administration of bile acids. Here we show that the farnesoid X receptor (FXR), a nuclear receptor for bile acids, induces genes involved in enteroprotection and inhibits bacterial overgrowth and mucosal injury in ileum caused by bile duct ligation. Mice lacking FXR have increased ileal levels of bacteria and a compromised epithelial barrier. These findings reveal a central role for FXR in protecting the distal small intestine from bacterial invasion and suggest that FXR agonists may prevent epithelial deterioration and bacterial translocation in patients with impaired bile flow. In this report we have examined the role of FXR in the ileum. We demonstrate that it plays a crucial role in preventing bacterial overgrowth and maintaining the integrity of the intestinal epithelium
Regulation of antibacterial defense in the small intestine by the nuclear bile acid receptor.
Sex, Compound
View SamplesWe reprogrammed human CD34+ cells from cord blood using a lentiviral vector encoding OCT4, SOX2 and KLF4.We collected RNA from parental CD34+ cells (3samples), reprogramming timepoints (9 timepoints), iPS clones derived from this experiment (6 clones), and human ES cell lines (9 samples). All samples were sequenced at 100bp reads. Overall design: Endogenous retroelement expression during reprogramming
Loss of transcriptional control over endogenous retroelements during reprogramming to pluripotency.
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