Project description:Cryptococcus neoformans is a fungal pathogen with a polysaccharide capsule that becomes greatly enlarged in the mammalian host and during in vitro growth in response to host-like conditions. To understand how individual host-like signals affect capsule size and gene expression, we grew cells with and without all combinations of 5 signals suspected of affecting capsule size: Tissue-culture medium (DMEM or RPMI), temperature (37°C), CO2 (5%), and the addition of HEPES buffer. For each combination of conditions, we grew cultures with or without exogenous cAMP, and sampled cells for RNA-Seq at 0, 30, 90, 180, 1440 minutes and for measurement of capsule thickness at 1440 min. We also took samples for RNA-Seq at 30, 90, 180, 1440 minutes and carried out RNA-Seq in quadruplicate.

Project description:Cryptococcus neoformans is a fungal pathogen with a polysaccharide capsule that becomes greatly enlarged in the mammalian host and during in vitro growth in response to host-like conditions. To understand how individual host-like signals affect capsule size and gene expression, we grew wild-type cells and cells lacking components of the cAMP pathway: Pde1, Pde2, Pkr1. We also took samples for RNA-Seq at 30, 90, 180, 1440 minutes and carried out RNA-Seq in quadruplicate. We also measured capsule thickness at 1440 min.

Project description:The aim of the experiment was to identify early gibberellin (GA) responsive genes in the roots of an Arabidopsis GA deficient mutant.The GA deficient mutant used in this study is a transgenic line overexpressing the PcGA2ox1 gene. This mutant has an identical phenotype to ga1-3, but it does not require exogenous GA treatment for germination.Seeds were germinated on 1xMS + 1% (w/v) sucrose plates containing 0.7% gelrite, and grown under continous light. The plates were orientated vertically.After six days growth the plates were treated with or without 5uM GA4 for 0, 30, 60 and 180 minutes.Approximately 400 hypocotyls were harvested per timepoint using a razorblade and after excision the hypocotyls were frozen in liquid nitrogen giving a total of 7 experimental samples (1: untreated, 2: 30 mins GA4, 3: 30 mins untreated, 4: 60 mins GA4, 5: 60 mins untreated, 6: 180 mins GA4, 7: 180 mins untreated. Three biological replicates were performed giving a total of 21 root samples. Total RNA was isolated from the roots using the QIAGEN RNeasy method. Keywords: Expression profiling by array

Project description:Pepper fruits at four different developmental stages were collected: early fruit [EF; 1 cm long; 7 days after pollination (dap)], mature green fruit (MG; 6-7 cm length; 20 dap), breaking or turning red fruit (BR; fruit are partially red; 35 dap), and red ripe fruit (RR; fully red; 40 dap). Tomato fruits at corresponding developmental stages were also collected: EF (less than 1cm; 7 dap), MG (40 dap), BR (50 dap), and RR (55 dap). For the monitoring of fruit-specific and fruit ripening-related genes, we did array hybridization by using the leaves as a common reference and each corresponding fruit developmental stage sample.

Project description:Cryptococcus neoformans is a fungal pathogen with a polysaccharide capsule that becomes greatly enlarged in the mammalian host and during in vitro growth in response to host-like conditions. To understand how individual host-like signals affect capsule size and gene expression, we grew cells wild-type KN99 cells with either no added cyclic AMP (cAMP), 1.1 mM, 1.8 mM, 3.3 mM, 11 mM, or 20 mM cAMP. capsule thickness at 1440 min. We also took samples for RNA-Seq at 30, 90, 180, 1440 minutes and carried out RNA-Seq in quadruplicate. We also measured capsule thickness at 1440 min.

Project description:Protein-leucine supplement ingestion following strenuous endurance exercise accentuates skeletal-muscle protein synthesis and adaptive molecular responses, but the underlying transcriptome is uncharacterized. In a randomized single-blind triple-crossover design, 12 trained men completed 100 min of high-intensity cycling then ingested either 70/15/180/30g protein/leucine/carbohydrate/fat (15LEU), 23/5/180/30g (5LEU) or 0/0/274/30g (CON) beverages during the first 90 min of a 240-min recovery period. Vastus lateralis muscle samples (30 and 240-min post-exercise) underwent transcriptome analysis by microarray followed by bioinformatic analysis. Gene expression was regulated by Protein-leucine in a dose-dependent manner impacting the inflammatory response, muscle growth and development. At 30 min, 15LEU and 5LEU vs. CON activated transcriptome networks with geneset functions involving cell-cycle arrest (Z-score 2.0-2.7; P<0.01), leukocyte maturation (1.7; P=0.007), cell viability (2.4; P=0.005), promyogenic networks encompassing myocyte differentiation and myogenin (MYOD1, MYOG), and a proteinaceous extracellular matrix, adhesion, and development programme correlated with plasma lysine, arginine, tyrosine, taurine, glutamic acid, and asparagine concentrations. High protein-leucine dose (15LEU-5LEU) activated an IL1b-centered proinflammatory network and leukocyte migration, differentiation, and survival functions (2.0-2.6; <0.001). By 240 min, the protein-leucine transcriptome was anti-inflammatory and promyogenic (IL-6, NF-kβ, SMAD, STAT3 network inhibition), with overrepresented functions including decreased leukocyte migration and connective tissue development (-1.8-2.4; P<0.01), increased apoptosis of myeloid and muscle cells (2.2-3.0; P<0.002) and cell metabolism (2.0-2.4; P<0.01). The analysis suggests protein-leucine ingestion modulates inflammatory-myogenic regenerative processes during skeletal muscle recovery from endurance exercise. Further cellular and translational research is warranted to validate amino acid-mediated myeloid and myocellular mechanisms within skeletal-muscle functional plasticity.

Project description:Protein-leucine supplement ingestion following strenuous endurance exercise accentuates skeletal-muscle protein synthesis and adaptive molecular responses, but the underlying transcriptome is uncharacterized. In a randomized single-blind triple-crossover design, 12 trained men completed 100 min of high-intensity cycling then ingested either 70/15/180/30g protein/leucine/carbohydrate/fat (15LEU), 23/5/180/30g (5LEU) or 0/0/274/30g (CON) beverages during the first 90 min of a 240-min recovery period. Vastus lateralis muscle samples (30 and 240-min post-exercise) underwent transcriptome analysis by microarray followed by bioinformatic analysis. Gene expression was regulated by Protein-leucine in a dose-dependent manner impacting the inflammatory response, muscle growth and development. At 30 min, 15LEU and 5LEU vs. CON activated transcriptome networks with geneset functions involving cell-cycle arrest (Z-score 2.0-2.7; P<0.01), leukocyte maturation (1.7; P=0.007), cell viability (2.4; P=0.005), promyogenic networks encompassing myocyte differentiation and myogenin (MYOD1, MYOG), and a proteinaceous extracellular matrix, adhesion, and development programme correlated with plasma lysine, arginine, tyrosine, taurine, glutamic acid, and asparagine concentrations. High protein-leucine dose (15LEU-5LEU) activated an IL1b-centered proinflammatory network and leukocyte migration, differentiation, and survival functions (2.0-2.6; <0.001). By 240 min, the protein-leucine transcriptome was anti-inflammatory and promyogenic (IL-6, NF-kβ, SMAD, STAT3 network inhibition), with overrepresented functions including decreased leukocyte migration and connective tissue development (-1.8-2.4; P<0.01), increased apoptosis of myeloid and muscle cells (2.2-3.0; P<0.002) and cell metabolism (2.0-2.4; P<0.01). The analysis suggests protein-leucine ingestion modulates inflammatory-myogenic regenerative processes during skeletal muscle recovery from endurance exercise. Further cellular and translational research is warranted to validate amino acid-mediated myeloid and myocellular mechanisms within skeletal-muscle functional plasticity. Total RNA obtained from isolated skeletal muscles

Project description:Comparison of expression profiles in early Drosophila embryos and unfertilised eggs (collection intervals: 30-60 min, 90-120 min and 150-180 min after egg laying). A complete summary file containing normalized data with FLYBASE CG gene identifiers, gene symbols and classifications can be found in E-MEXP-2580.additional.zip under the "Browse all available files" link

Project description:Sugar content is one of significant marks of fruit quality, and understanding the regulatory mechanism of sucrose accumulation is fundamental for breeding excellent melon fruit. As indicated by the co-expression network analysis, we distinguished a MYB transcription factor, CmMYB113, whose expression responds to oriental melon (‘HS’ (high-sucrose cultivar) and ‘LW’ (low-sucrose cultivar)) fruit ripening. Agrobacterium-mediated transient transformation injection and stable genetic transformation system confirmed that CmMYB113 promoted the sucrose accumulation and ethylene synthesis by up-regulating the expression of CmACO1 and CmSPS1 in oriental melon fruit. What’s more, we also identified a MADS transcription factor from the transcriptome, CmMADS26, which is highly expressed during melon fruit ripening. Intriguingly, CmMADS26 could directly bind to the promoter of CmACO1 to promote its transcription, and CmMYB113 physically interacted with CmMADS26 in yeast and tobacco leaves. Our findings give new bits of knowledge into the regulatory mechanisms by which MYB and MADS transcription factors interact to regulate melon fruit ripening and sucrose accumulation.

Project description:We performed transcriptome analyses throughout fruit development using the tomato cultivar M82 and its near-isogenic line IL8-3, with interesting and useful traits such as a high content of soluble solids. To identify genes that show differential expression between M82 and IL8-3 fruits, we used a custom microarray containing 43,803 tomato probes. Some genes, such as cell wall invertase and sucrose synthase genes, which are encoded by LIN6 (Solyc10g083290) and TOMSSF (Solyc12g009300) respectively, are well known to play a key role in the sink function of fruit. In this study, the levels of LIN6 and TOMSSF transcripts were higher in IL8-3 than in M82 fruit at 20 and 30 DAF, which are developmental stages for starch accumulation and increased hexose content, respectively, in IL8-3 fruit (Ikeda et al. 2013), and decreased to the level of M82 at ripening stage. Similar patterns were observed in many metabolites of glycolysis and the pentose phosphate pathway as well as metabolites in starch and sucrose metabolism.