Project description:High quality nitrogen sources such as NH4+ and glutamate inhibit the uptake of poor nitrogen sources including amino acids (leucine etc.), which is called “nitrogen catabolite repression (NCR)”. We found a cell-to-cell communication system in fission yeast that inactivates NCR and enables cells to take up leucine even on high NH4+ medium (referred to as adaptive growth). Furthermore, we identified novel oxylipins responsible for the adaptive growth, which are secreted from cells and are referred to as nitrogen signaling factors (NSF). RNA-seq analyses showed that mitochondrial respiratory-related genes are differentially expressed upon addition of synthetic NSF. These results suggest that the cell-to-cell communication via NSF reprograms the metabolic preference from glycolysis to mitochondrial respiration. Moreover, we also performed ChIP-seq of transcription factors (TFs) and found that bindings of several TFs on DNA are regulated by NSF.

Project description:High quality nitrogen sources such as NH4+ and glutamate inhibit the uptake of poor nitrogen sources including amino acids (leucine etc.), which is called “nitrogen catabolite repression (NCR)”. We found a cell-to-cell communication system in fission yeast that inactivates NCR and enables cells to take up leucine even on high NH4+ medium (referred to as adaptive growth). Furthermore, we identified novel oxylipins responsible for the adaptive growth, which are secreted from cells and are referred to as nitrogen signaling factors (NSF). RNA-seq analyses showed that mitochondrial respiratory-related genes are differentially expressed upon addition of synthetic NSF. These results suggest that the cell-to-cell communication via NSF reprograms the metabolic preference from glycolysis to mitochondrial respiration. Moreover, we also performed ChIP-seq of transcription factors (TFs) and found that bindings of several TFs on DNA are regulated by NSF.

Project description:To have a mechanistic insight how the Zeb1 KD CD8+cDC1 perturbs the immune response globally. to identify the genes that are regulated by Zeb1 RNA was isolated and check for quality, then we used NEB RNA library preparation kit to prepare the library and send for sequencing on Illumina Hi-seq 2500 platform

Project description:ChIP-seq of CENP-A in S. pombe

Project description:Naked mole-rat skin fibroblasts (NSF) produces vHMM-HA. Although NSF-HA has been shown to suppress NSF transformation, it is still unclear if exceptional polymer length of vHMM-HA is important for its functions. Here, we compared the effect of intact control NSF-HA (cNSF-HA) and partially fragmented NSF-HA (fNSF-HA) on the transcriptome of IMR90 cells. Related RNA-Seq datasets are deposited in ArrayExpress (E-MTAB-8943).

Project description:To look for Pab1 interacting proteins, GFP-Pab1 was purified from S. pombe cell under nitrogen depletion (cultureed in EMM2-N for 1hour) and subjected to LC-MS/MS analysis.

Project description:Naked mole-rat skin fibroblasts (NSF) produces vHMM-HA. Although NSF-HA has been shown to suppress NSF transformation, it is still unclear if exceptional polymer length of vHMM-HA is important for its functions. Here, we compared the effect of intact control NSF-HA (cNSF-HA) ) on the transcriptome of CD44-overexpressing IMR90 cells.

Project description:We sequenced the xylem transcriptome from a population of unrelated individuals of P. deltoides to uncover a master regulator of lignin biosynthesis. Grant ID: IOS-1444543 Grant Title: Genome and transcriptome based prediction, and regulator inference, o molecular and whole-plant phenotypes. Funding source: NSF Plant Genome Research Program.

Project description:Distribution of Chp1 protein on S. pombe chromosomes analysed by CHIP-seq in wild type cells and ccr4 mutants

Project description:Naked mole-rat skin fibroblasts (NSF) produces vHMM-HA. Although NSF-HA has been shown to suppress NSF transformation, it is still unclear if exceptional polymer length of vHMM-HA is important for its functions. Here, we compared the effect of intact control NSF-HA (cNSF-HA) and partially fragmented NSF-HA (fNSF-HA) on CD44 protein-protein interactions.