Project description:Hair Follicle regeneration relies on both epithelial components (bulge and hair germ cells) and a mesenchymal one (dermal papilla cells). We used microarrays to detail the global programme of gene expression underlying organ regeneration at the transition between quiescent stages (early and middle telogen) and the initiation of a new growth (late telogen). Experiment Overall Design: These microarray at the 3 different stages were designed to identify signals released by the mesenchymal dermal papilla cells to activate epithelial growth, their target genes in the hair germ and bulge compartments, and to get at gene signature differences and similarities between hair germ and bulge cells.

Project description:Heart failure (HF) is the most common cause of morbidity and mortality in the developed countries, especially considering the present demographic tendencies in those populations. We identified biologically relevant transcripts that are significantly altered in the early phase of myocardial infarction (MI) and are associated with the development of post-myocardial infarction HF. We collected peripheral blood samples from patients (n=111) with ST-segment elevation myocardial infarction (STEMI) at four time points (admission, discharge, 1 month after MI, and 6 months after MI). Control group comprised patients (n=46) with a stable coronary artery disease and without a history of myocardial infarction. Affymetrix HuGene 1.0 ST arrays were used to analyze mRNA levels in periperal blood mononuclear cells (PBMCs) isolated from the study and control groups. Samples from the first three time points were compared with the samples from the same patients collected 6 months after MI (stable phase) and with the control group. Additionaly, based on plasma NT-proBNP level and left ventricular ejection fraction parameters the STEMI patients were divided into HF and non-HF groups.We attempted to identify transcripts whose differential expression on the 1st day of myocardial infarction predicted which patients would develop symptoms of HF during the 6 months of follow-up. For this purpose, we compared the microarray results for samples collected on admission for the HF group versus the non-HF group.

Project description:Cutis laxa (CL) syndromes are a heterogenous group of connective tissue disorders that share a loose, redundant skin as a common clinical feature. The systemic features vary among the different subtypes. CL is caused by mutations in genes encoding for components of the extracellular matrix (FBLN4, FBLN5, LTBP4 and ELN), encoding for elastin-modifying enzymes (ATP7A) or encoding for components that influence cellular trafficking and metabolism (ATP6V1E1, ATP6V1A, ATP6V0A2, ALDH18A1, RIN2, GORAB, PYCR1 and SLC2A10). ATP6V1E1–related CL cause loose redundant skin folds, variable mental disability, typical facial characteristics, lipodystrophy, hypotonia, and cardiopulmonary involvement including pneumothorax, hypertrophic cardiomyopathy and aortic root dilatation. The intent of this study is to investigate which genes are up- or downregulated in atp6v1e1b-deficient zebrafish larvae compared to wild-type controls. Via transcriptome analysis, we want to study the pathogenic mechanism of ATP6V1E1-induced CL syndrome. We use a zebrafish line with viral insertion in the 5’UTR of atp6v1e1b, disrupting transcription (atp6v1e1bhi577aTg/+), from the Zebrafish International Research Center (ZIRC) and we use a line harboring a two base-pair insertion followed by a three base-pair deletion in exon 5 of atp6v1e1b, c.334insGG; c.337-340delCGG, predicted to result in p.R111WfsX2 (atp6v1e1bcmg78/+) which we created ourselves by CRISPR-Cas9 mutagenesis. Overview of the experimental work-flow: - Sample collection: pool of 10 zebrafish larvae of 3 dpf/genotype in RNA-later - RNA extraction: TRIzol® Reagent,RNeasy mini kit (Qiagen) according to manufacturer’s instructions - RNA integrity: 2100 Bioanalyzer (Agilent) - Sequencing library: TruSeq® Stranded mRNA Library Prep (Illumina, San Diego, California, United States) supplemented with TruSeq® RNA Single Indexes Set A (Illumina) - Sequencing: HiSeq 3000 sequencer (Illumina) - paired-end 150 bp - sequencing facility of the Center of Medical Genetics Ghent - alignement to zebrafish GRCz10 reference genome to generate bam files - RNA-seq pipeline was used that was published by the nf-core community. This pipeline was executed using the Nextflow engine for computational workflows and comprises several processing steps. QC analysis of the RNA-seq data was performed with FastQC and MultiQC. TrimGalore was used to remove adapter contamination and to trim low-quality regions. Duplicate reads were identified with MarkDuplicates. Subsequently, all cleaned and trimmed reads that passed QC were aligned to GRCz10 using STAR aligner. Gene counts were computed using the featureCounts package. Differential expression analysis subsequently was performed on these gene counts using DESeq2. Differentially expressed genes were identified using a fold change cut-off >1 and FDR=0.05. Finally, GO enrichment & pathway analysis were performed on differentially expressed gene sets using the Generally Applicable Gene-set Enrichment for Pathway Analysis (GAGE) algorithm.

Project description:Temporal lobe epilepsy (TLE) is the most common subtype of epilepsy in adults and is characterized by neuronal loss, gliosis, and sprouting mossy fibers in the hippocampus. But the mechanism underlying neuronal loss has not been fully elucidated. A new programmed cell death, cuproptosis, has recently been discovered; however, its role in TLE is not clear. To investigate the the features of 12 cuproptosis-related genes in TLEs and controls，six epileptic focus specimens were obtained from the hippocampus of patients diagnosed with intractable TLE according to the International League Against Epilepsy (ILAE) diagnostic criteria (Blümcke et al., 2013). Because the hippocampal specimens from age matched controls were sparse, we only collected two control hippocampi from autopsied individuals without a known history of neurologic or psychiatric disease, ensuring a 3:1 disease-to control match.

Project description:R. rubrum S1H inoculated on solid minimal media was sent to the ISS in September 2006 (BASE-A experiment). After 10 days flight, R. rubrum cultures returned back to Earth. These cultures were then subjected to both transcriptomic and proteomic analysis and compared with the corresponding ground control. Whole-genome oligonucleotide microarray and high throughput proteomics, which offer the possibility to survey respectively the global transcriptional and translational response of an organism, were used to test the effect of space flight. Moreover, in an effort to identify a specific stress response of R. rubrum to space flight, ground simulation of space ionizing radiation and space gravity were performed under identical culture setup and growth conditions encountered during the actual space journey. This study is unique in combining the results from an actual space experiment with the corresponding space ionizing radiation and modeled microgravity ground simulations, which lead to a more solid dissection of the different factors contribution acting in space flight conditions. Total RNA was extracted from R. rubrum S1H grown after 10 days in space flight or after 10 days in simulated ionizing radiation or simulated microgravity. Each microarray slide contained 3 technical repeats.

Project description:We investigated gene expression levels in Heliconius erato butterflies with divergent wing patterns across a 656KB genomic interval linked to the red color pattern wing polymorphism. This included comparison of expression between two H. erato color pattern populations (H. e. petiverana and a H.e. etylus x H. himera hybrid) across three sections of the forewing that differed in pigmentation (the basal, mid, and distal wing sections) and five different stages of pupal development (Day 1, 3, 5 pupae and ommochrome and melanin pigmentation stages). These results allowed us to determine whether certain genes in this interval were differentially expressed between the wing pattern elements, and, therefore, potentially responsible for adaptive color pattern variation in these butterflies. Forewings from a total of 29 individuals, covering three biological replicates of five developmental time points for each of the two H. erato distinct phenotypes were dissected, with the only exception being that there were only two replicates of the day 1 hybrid phenotype. Individuals were reared at 25˚C and dissected at the following stages: a) day 1 = 12 hr after pupation; b) day 3 = 60 hr after pupation; c) day 5 = 108 hr after pupation; d) early ommochrome = ~ 156 hr after pupation when red scales in forewing partially mature, showing a pale orange color; and e) early melanin = ~ 180 hr after pupation melanic scales begin to turn black and are present primarily at the center of the wing. Using wing veins as landmarks, each forewing was cut into three sections corresponding to the color pattern boundaries: basal (F1), middle (F2), and apical (F3). A eight custom-designed Roche NimbleGen 12x135K format microarrays with probes spanning a 656,307bp genomic region (Roche NimbleGen Inc., Madison, Wisconsin, United States) were used to hybridize double stranded cDNA from 87 tissue samples. Repetitive sequence elements found more than five times across all currently available H. erato genomic sequences, including the probed region as well as additional genomic BAC sequences, were masked from the tiling region. The remaining unmasked non-repetitive genomic sequences were tiled using 60 bp probes staggered every 13 bp on average, with slight modifications to ensure probe quality, for a total of 48,547 probes. Microarry design and printing was performed by Roche NimbleGen. cDNA labeling, hybridization, and array scanning was performed by the City of Hope Microarray Facility (Duarte, California, United States). In addition to the probes from the red color pattern intervals, the arrays also include 40,763 probes across two other genomic intervals not addressed in this study, 45,046 probes representing 12450 transcripts from a recent transcriptome assembly at 1-6X coverage, and 3248 random probes. Results from the transcriptome and other color pattern intervals will be published separately, however, we analyzed all probes together for array normalization and quality control.

Project description:P. tricornutum (Bacillariophyta, Pennatae, NEPCC640) was obtained from the Algal Center of the Institute of Oceanology of the Chinese Academy of Sciences. The cells were cultured in a modified f/2 medium (Guillard, 1975) at 20 +/- 1C, and illuminated with 120 umol photon m-2 s-1 under a 12:12 light: dark cycle. Flasks were shaken by the researchers twice a day at the fixed times. Experiments were conducted in triplicate in 3L sterilized and acid-washed Erlenmeyer flask containing 2L medium. The equipment used in this study is similar to the ones used in previous ocean acidification research (Fu et al., 2007; Hutchins et al., 2007; Wu et al., 2010). Prior to inoculation, the mediums were treated by different CO2 concentrations. The low CO2 medium was bubbled with ambient air of about 400 ppmv (low CO2, LC) and the high CO2 medium was bubbled with pre-mixed air-CO2 mixtures (1000 ppmv; high CO2, HC) from a plant growth CO2 chamber (HP400G-D, Ruihua Instrument & Equipment Ltd, Wuhan, China) with a variation of less than 5%. Semi-continuous cultures were used to maintain the pH stability during P. tricornutum growth in the present study, All the cultures were diluted to 1x104 cells mL-1 with fresh medium and pre-acclimated to the desired CO2 level every 24 h to maintain an exponential growth phase and minimize pH fluctuations of the cells. Cultures were harvested after 8 months of semi-continuous incubation. Significant differences between the carbonate systems in different cultures.

Project description:Heart failure (HF) is the most common cause of morbidity and mortality in the developed countries, especially considering the present demographic tendencies in those populations. We identified biologically relevant transcripts that are significantly altered in the early phase of myocardial infarction (MI) and are associated with the development of post-myocardial infarction HF.

Project description:The aim of this study was to generate a high-density genetic linkage map of Arabidopsis. A custom-designed exon-specific whole-genome array was used to identify ~16,000 significant SFP markers between the parental accessions Col and Ler. Subsequently 100 Col/Ler recombinant inbred lines (RILs) were hybridized to the whole genome exon arrays and the SFP-markers genotyped in all lines.

Project description:Microarrays have become a powerful tool for DNA-based molecular diagnostics and identification of pathogens. However, most of them target a limited range of organisms and are generally based on only one or very few genes for organism identification. Although such microarrays are proven tools for species identification, they suffer from the fact that identification is only possible for organisms for which probes were specifically pre-developed. Furthermore, this approach often leads to problems with taxonomic-level resolution with insufficient diagnostic differences between closely related taxa found in the commonly used DNA sequences. An alternative strategy is to use the hybridisation pattern generated by many different anonymous markers distributed over the entire genome for identification based on comparison to a type database. We realised this strategy using a high density microarray containing 95,000 different 13-mer probes. Here, we demonstrate the specificity of our microarray based on results obtained with nine different bacterial species and strains. The hybridisation patterns allowed clear differentiation at the strain and even variant level. The reproducibility of our system was high as shown by high correlation coefficients between replicates, despite the occurrence of mismatch hybridisation. The results indicate the potential for identification of all bacterial taxa at the subspecies level using our universal microarray. Hybridisation patterns of DNA from bacterial type strains (E. coli strains K12 and B, Pantoea agglomerans strains ATCC27155T and C9-1, Pantoea stewartii pv stewartii strain DC283, Salmonella Typhimurium strains LT2 and DT204 and Micrococcus luteus) were compared to each other. Using GeneSpring v7.3.1, cluster analyses were performed as well as ANOVA in order to determine the more discriminative probes out of our 95,000-probe panel.