Project description:Gyrencephalic species develop folds in the cerebral cortex in a stereotypic manner, but the genetic mechanisms underlying this unique patterning process are unknown. We present a large-scale transcriptomic analysis of individual germinal layers in the developing cortex of the gyrencephalic ferret, comparing between regions prospective of fold and fissure. We find unique transcriptional signatures in each germinal compartment, indicating that thousands of genes are differentially expressed between regions, including ~80% of genes mutated in human cortical malformations. Regional differences result from sharp changes in gene expression levels, which occur at multiple locations across the developing cortex of ferret and human, but not in the lissencephalic mouse. These complex expression patterns emerge sequentially during development and map the eventual location of specific folds and fissures. Our findings demonstrate that step-wise gene expression maps within germinal layers distinguish the development of gyrencephaly from lissencephaly, and may contribute to identify novel genes responsible for human malformations. Six samples were analyzed with 3 replicates of each of them. Comparisons were done taking different reference sample depending on the comparison ( Usually taking the SG as reference)

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:To understand allopoyploid speciation into hydrologically fluctuating niches, we observed gene expressions of two parental species and their allotetraploid species under wet and dry conditions Gene expression of leafs from control, dry and wet conditions over three Caramine species: C. amara, C. hirsuta and C. flexuosa

Project description:Evolutionary engineering strategy was used for selection of ethanol-tolerant Saccharomyces cerevisiae clones under gradually increasing ethanol stress levels. Clones B2 and B8 were selected based on their higher ethanol-tolerance and higher ethanol production levels. Whole genome microarray analysis was used for identifying the gene expression levels of these two evolved clones compared to the reference strain. Two evolved ethanol-tolerant strains B2 and B8, which were selected by evolutionary engineering under gradually increasing ethanol stress, were used for whole genome transcriptomic analysis in comparison with the reference strain. Cells were grown in yeast minimal media until they reach a final OD600 of 1. Following total RNA isolation, gene expression levels were analyzed using One-color microarray-based gene expression analysis (Agilent Technologies). Experiments were done in triplicates.

Project description:Analysis of mRNA expression in the brains (cortex) of 6 months-old PINK1 knockout mice.

Project description:Neural progenitor cells (NPCs) can be induced from somatic cells by defined factors. Here we report that NPCs can be generated from mouse embryonic fibroblasts by a chemical cocktail, namely VCR (V, VPA, an inhibitor of HDACs; C, CHIR99021, an inhibitor of GSK-3 kinases and R, Repsox, an inhibitor of TGF-β pathways), under a physiological hypoxic condition. These chemical-induced NPCs (ciNPCs) resemble mouse brain-derived NPCs regarding their proliferative and self-renewing abilities, gene expression profiles, and multipotency for different neuroectodermal lineages in vitro and in vivo. Further experiments reveal that alternative cocktails with inhibitors of histone deacetylation, glycogen synthase kinase, and TGF-β pathways show similar efficacies for ciNPC induction. Moreover, ciNPCs can also be induced from mouse tail-tip fibroblasts and human urinary cells with the same chemical cocktail VCR. Thus our study demonstrates that lineage-specific conversion of somatic cells to NPCs could be achieved by chemical cocktails without introducing exogenous factors. To access the exact identity of ciNPCs, we extracted mRNA from mouse brain-derived NPCs (as control NPCs), MEFs, ciNPCs at passage 5 and passage 13 and compared the global gene expression patterns of these cells by microarray analysis.

Project description:High-temperature fermentation of the Bacillus subtilis isolated from the black part of maotai Daqu. Studying on the gene expression profile using microarray for analyzing the connection between metabolites and the maotai flavor substances. 84 differential expressed genes were obtained, including 40 up-regulated genes and 44 down-regulated genes.The differentially expressed genes involved in the metabolic pathways were just only KBL (glycine C - acetyltransferase) and ripA (bifunctional 3, 4 - dihydroxy - 4-2 - butanone phosphate synthase), up-regulated 2.9 and 2.9 times respectively, and their catalytic reaction prodction of aminobutyric acid and dihydroxy ethyl ketone phosphate, respectively. They may be further derived into alcohol and ketone flavoring substances. However, a large number of differential expressed genes was related to sporulation, such as ybaN (polysaccharide deacetylase) and rapA (aspartic acid phosphatase), they were up-regulated 17.5 times and down-regulated 112.5 times. YbaN is closely related to the formation of spore cortex and high temperature group spore cortex obvious thickening by TEM. RapA is signaling molecules to restrain spore formation, its lower expression can promote the sporulation in group A. Formation and release of peptidoglycan and the DPA (2, 6 - Pyridinedicarboxylic acid) of spore cortex during theseveral rounds of low temperature to high temperature circulation fermentation may be the main source of furan and pyranand nitrogen heterocyclic compounds in maotai flavor substances . In this paper, the formation of high-temperature fermentation Bacillus subtilis spores is closely related to the generation of maotai flavor substances. There are total of eight samples. It divided two groups, set as group A (High temperature fermentation) and B (normal temperature fermentation, continuous 37C). There are four replicates for each group.

Project description:Major depressive disorder (MDD) is a common disorder and is responsible for considerable disability in global functioning, anorexia, and severer medical comorbidity. Recently, some reports showed the relationship between MDD and the metabolic disorders such as diabetes. We examined gene expression profiles in the mice prefrontal cortex using genome-wide microarray technology, and determined gene expression profiles with and without chronic mild stress(CMS) for 4 weeks which was often used to make models of depression. To analyze the candidate genes involved in not only depression but dysfunction of physiological homeostasis like diabetes, we campared the gene expression levels between with and without CMS, then we isolated 494 genes showing a more than 2-fold increase or a less than 1/2-fold decrease, in addition, we chose the isolated genes transcriptional products of both samples were confirmed clearly. The prefrontal cortex of C57Bl/6 N sea mice with and without CMS. We mixed tatal RNA from 7 mice prefrontal cortex per each.

Project description:Neural stem cells reside in a hypoxic microenvironment within the brain. However, the crucial transcription factors that regulate neural stem cell biology under physiologic hypoxia are poorly understood. Here, we have performed microarray analysis of hypoxic versus normoxic neural stem cells with the aim of identifying pathways and transcription factors that are activated under oxygen concentrations mimicking normal brain tissue microenvironment. To identify the molecular mechanisms mediating the effect of low oxygen levels on NSC biology, we profiled the global effect of sustained, physiologic hypoxia on NSC gene expression using an unbiased approach by genome-wide microarray analysis. NSC were isolated from E13.5 mouse embryos (OF-1 strain) as previously described (Johe et al., 1996). After isolation, cells were immediately cultured at 37°C, 5% CO2 and either 5% or atmospheric (≈21%) oxygen and maintained in these conditions for 2-3 passages (minimum of 10 days). Then, total RNA was extracted, labeled and hybridized in a SurePrint G3 Mouse GE 8x60k array (Agilent Technologies). Four independent experiments were performed using different mouse donors for each experiment.

Project description:Analysis of gene expression changes in the von Hippel Lindau when mutant compared to wild-type at 4dpf using a whole genome microarray expression profiling. The von Hippel Lindau mutant displays a systemic hypoxic response under normoxic conditions. We performed single-colour microarrays to identify the gene expression changes which underpin the hypoxic phenotype. We used 3 biological replicates from both mutant and control, followed by analysis using Limma to identify significant gene expression changes. This work, together with ChIP-seq data for the Hif-1α in von Hippel Lindau mutants, should allow for the Hif-1α dependency of these gene expression changes to be assessed. The changes in gene expression between von Hippel Lindau mutants and wild-type controls was measured at 4 days post fertilisation. For both wild-type and mutant, 3 biological replicates, each of 30 embryos were used.