Project description:A Trichoderma microarrays composed of 385,000 probes, designed against the genomes of Trichoderma reesei (= Hypocrea jecorina), ID: 431241 (9,129 genes) + Trichoderma virens (= Hypocrea virens), ID: 413071 (11,643 genes) + Trichoderma atroviride (= Hypocrea atroviridis) ID: 197014A (11,643 genes), was constructed (Roche-NimbleGen, Inc., Madison, WI, USA). Probes contained entere transcript sequence. This microarray was used to analyze the transcriptomic changes of T. atroviride IMI 352941 (T11) in three conditions: T11 growing alone, T11 growing at ca 5 mm of V. dahliae V-138I and T11 overgrowing V-138I.

Project description:Chroomonas placoidea

Project description:We report the changes of Histone H3 T11 phosphorylation (H3pT11) signal upon nutritional stress (YP with 3% glycerol).

Project description:Chroomonas sp. overview

Project description:Chroomonas mesostigmatica overview

Project description:Total RNA was extracted at different stages (TV, T0, T11 and T20) during autogamy of strain d4-2. Genes specifically induced during autogamy were identified following analysis of microarray hybridization data

Project description:We report nuclear FBP1 interacts with PPARa and binds to the promoter regions of PPARa-mediated b-oxidation genes. S170-phosphorylated FBP1 with an altered catalytic domain structure functions as a protein phosphatase that dephosphorylates histone H3 at T11 and suppresses PPARa-mediated gene expression. Chromatin immunoprecipitation DNA-sequencing (ChIP-seq) for FBP1 and PPARa with glucose deprivation in L02 cells.

Project description:RNA Sequencing of claudin-low triple negative breast cancer cells T11 treated with FPP-1746-Omomyc, Omomyc, FPP-1746 and vehicle control (PBS) to determine differentially regulated genes induced by FPP-1746-Omomyc

Project description:The first GSSM of V. vinifera was reconstructed (MODEL2408120001). Tissue-specific models for stem, leaf, and berry of the Cabernet Sauvignon cultivar were generated from the original model, through the integration of RNA-Seq data. These models have been merged into diel multi-tissue models to study the interactions between tissues at light and dark phases.

Project description:Cis-9, trans-11-conjugated linoleic acid (c9, t11-CLA), a functional fatty acid, is one of the research hotspots in the fields of functional dairy products development because of its multiple beneficial effects in humans and animals. In milk, most c9, t11-CLA is de novo synthesized from trans-11-octadecenoic acid (TVA) and it is confirmed that genes such as stearoyl-coA desaturase 1 (SCD1) play a key role in the synthesis. However, few studies have been reported to deeply elucidate the SCD1-dependent molecular mechanism of cis9, trans11-CLA synthesis and its relationship with the pathways of energy metabolism and lipid metabolism. Therefore, in the present study, MAC-T cells were divided into three groups: CAY group (SCD1-inhibited MAC-T cell model with the addition of CAY, TVA), TVA group (only TVA), and Control group (without CAY, TVA). The relative mRNA expression of SCD1 was measured using real-time PCR, while TVA accumulation and c9, t11 -CLA synthesis were analyzed using gas chromatography (GC). The SCD1-related proteins were firstly screened in MAC-T cells by Tandem Mass Tag (TMT)-based quantitative proteomics analysis, then their functions were annotated by bioinformatic analysis, and finally their relationships with SCD1 were evaluated by parallel reaction monitoring (PRM) analysis and small RNA interference. The results showed that the deficiency of SCD1 led by CAY10566 blocked the synthesis of c9, t11-CLA in MAC-T cells. Sixty-one SCD1-associated proteins were screened and found to be mainly involved in the pathways of energy metabolism and lipid metabolism, such as glycolytic pathway, pentose phosphate pathway, fatty acid elongation pathway, and unsaturated fatty acid biosynthesis. Among these genes, 17 proteins were validated under the PRM analysis. PGAM1 (phosphoglycerate mutase 1), TPI1 (triosephosphate isomerase 1), LDHB (lactate dehydrogenase B), and ALDOA (aldolase, fructose-bisphosphate A) were verified to have a negative relationships with SCD1. This study furthered our understanding of the molecular mechanisms of c9, t11-CLA synthesis in the mammary glands of dairy cows.