Project description:The Sordaria macrospora nox1 mutant has a block in sexual development at the stage of protoperithecia formation, and therefore is sterile. The aim of this study was to determine the transcriptome of microdissected protoperithecia from the mutant, as well as the transcriptomes of total RNA from the mutant and the wild type for comparison. The data were then compared with transcriptome data from protoperithecia of the wild type and the developemental mutant pro1; the corresponding data were generated in a previous study (Teichert et al. 2012, BMC Genomics 13: 511, GEO accession GSE33668). The samples (amplified RNA from nox1 microdissected protoperithecia and total RNA from nox1 and wild type mycelia undergoing sexual development) were sequenced as paired-end reads on an Illumina HiSeq 2000, two independent biological replicates for each nox1 sample and one replicate for the wild type.

Project description:The protein kinase Ime2 is known to have an important role in meiosis in the yeast Saccharomyces cerevisiae. However, the Neurospora crassa IME2 homolog functions in self/nonself recognition as well as in the development of fungal sexual structures called protoperithecia. In N. crassa, protoperithecia are induced upon nitrogen starvation. We were interested in gene expression differences between an ime-2 deletion strain and a wild type strain, and due to the role of ime-2 during sexual development, carried out these arrays on media that was lacking in nitrogen. There is one condition and three samples in this experiment (wild type and Dime-2 strains grown on minimal media lacking nitrogen), and dye swaps were performed

Project description:Multi-targeting priming (MTP) for genome-wide gene expression assays provides selective targeting of multiple sequences and counter-selection against undesirable sequences. We demonstrated superior performance of two MTPs compared to oligo-dT microarray profling and RNA tag sequencing the response of Saccharomyces cerevisiae to nitrogen deficiency and profiling Neurospora crassa early sexual development. Priming with MTPs in addition to oligo-dT resulted in higher sensitivity, a greater number of well-measured genes, more genes significantly differentially expressed, and a greater power to detect meager differences. Neurospora crassa mat A FGSC#2489 Three developmental stages and two different primers used for reverse transcription: mycelium oligo(dT) M1 protoperithecia oligo(dT) PP1 perithecia oligo(dT) PT1 mycelium oligo(dT)+ Multi-Targeted Primer [MTP] (M2) protoperithecia oligo(dT)+ MTP (PP2) perithecia oligo(dT)+ MTP (PT2)

Project description:Fungi exhibit a huge diversity in morphology and ecology, and genetic basis of morphological development in sexual reproduction of multi-cellular fungi has not been fully investigated with genome-wide approaches. Model organism Neurospora crassa is the very first sequenced genome for multi-cellular fungi, and well-annotated genome and gene markers characterized for key morphological traits make N. crassa an ideal platform to investigate transcriptome and its regulation during sexual development. RNA sequencing with different priming strategies have been efficient to provide fine-scale transcriptome landscapes for a multiple-staged development process. RNA were sampled for eight time points cross perithecial development, including two points right before and after crossing, for which mat A protoperithecia were fertilized with mat a conidia. Transcription profiles for 9717 genes were achieved for all eight time-points using multi-targeting priming and additional 14 genes for five time-points using random hexmas priming. Majority of the genome showed continually up- or down- regulated expression patterns during the later perithecial development stages after 72 or 96 h. Functionally unclassified proteins were counted for most up-regulated genes, while genes were enriched with different functions for different down-regulation patterns. We observed significant increase in transcription for mat a-1 and for mat A-1 specific pheromone precursor ccg-4 during the perithecial development, and expression of genetic markers for morphological traits in perithecium, ascus, and ascospore, and for development traits in meiosis often showed multiple peaks during the experiment. We also observed different expression patterns in transcription for other transcription factors and for genes involved in Meiotic Silencing and Repeat Induced Point Mutation, and expression of a gene encoding a protein similar to stc-1 in fission yeast, was increased after crossing and reached almost 1000 fold changes at 144h. Different expression patterns were also observed for genes involved in heterokaryotic and vegetative incompatibility and for genes functioning in the heterotrimmeric G protein signalling systems and in the MAP kinase signalling pathways. By sequencing RNAs from different development stages with two priming strategies, this study provided a large amount of data to quantifiably describe the sophisticated transcriptomic landscape in pre-mating, crossing and sexual reproduction of N. crassa. As major expression patterns for genes in different function categories were recognized during this process, our results in general supported previous observation of expression patterns for genetic markers and regulatory genes/pathway. This study provided further evidence for functional correlation among genes involved in same function or pathways, which included mating type genes and pheromones, transcription factors, pigmentation, heterokaryotic incompatibility, singaling pathways, and RNA silencing. Besides, we also disclosed different expression patterns for the regulatory genes/pathways cross the whole sexual development, and functions of some of these genes were also suggested with phenotypic studies of knockouts. Understanding how these different regulatory elements and their function networks adjust genome-wide transcriptomic and proteomic expression will provide detailed insights about morphological development of tissue-differentiated perithecia in N. crassa. RNA were sampled for eight time points cross perithecial development, including two points right before and after crossing, for which mat A protoperithecia were fertilized with mat a conidia. Two priming MTP and N6 were used separately as technique replicates for the first strain synthesis during cDNA preparation of all samples. Total 16 cDNAs were sequenced

Project description:We wanted to explore the genomic regions 1p13, 1q41, 9p21 and 10q11, which are among the labeled “top 12 golden loci” linked to coronary artery disease (CAD) risk, in order to see whether their geographic variation could be explained by demographic effects. To do this, we have genotyped these risk regions in a set of Mediterranean populations. Genomic DNA was extracted from blood cells using a Blood Midi kit (Omega Biotek, USA) according to manufacturer's procedures. DNA samples were genotyped for a combined set of 366 SNPs using an Illumina Custom GoldenGate Panel. SNPs were selected as a representative set of the common variation in the four genomic regions, according to the following criteria: i) average coverage of 1 SNP every 1.5 kb, ii) minor allele frequency (MAF) higher than 0.05 in CEU and TSI HapMap populations, iii) given priority to markers not in linkage disequilibrium (LD) (r2<0.8) in European populations, and iv) prioritizing markers previously associated with CAD. These criteria were applied giving preference to tag SNPs.

Project description:RNA-seq analysis of developmental stages from the filamenous ascomycete Sordaria macrospora. Using laser capture microdissection, we separated protoperithecia (young fruiting bodies) from the surrounding hyphae. RNA isolation and amplification from 150 protoperithecia yields enough material for RNA-seq analysis. The resulting data were compared to RNA-seq data from whole mycelial exctracts (total vegetative and total sexual mycelium) to characterize the genome-wide spatial distribution of gene expression during sexual development. We analyzed total vegetative mycelium, total sexual mycelium, and protoperithecia from the wild type as well as protoperithecia from the sterile mutant pro1. Additionally, we used the RNA-seq information to improve the predicted S. macrospora gene models, and annotated UTRs for more than 50 % of the genes.

Project description:The Sordaria macrospora nox1 mutant has a block in sexual development at the stage of protoperithecia formation, and therefore is sterile. The aim of this study was to determine the transcriptome of microdissected protoperithecia from the mutant, as well as the transcriptomes of total RNA from the mutant and the wild type for comparison. The data were then compared with transcriptome data from protoperithecia of the wild type and the developemental mutant pro1; the corresponding data were generated in a previous study (Teichert et al. 2012, BMC Genomics 13: 511, GEO accession GSE33668).

Project description:Multi-targeting priming (MTP) for genome-wide gene expression assays provides selective targeting of multiple sequences and counter-selection against undesirable sequences. We demonstrated superior performance of two MTPs compared to oligo-dT microarray profling and RNA tag sequencing the response of Saccharomyces cerevisiae to nitrogen deficiency and profiling Neurospora crassa early sexual development. Priming with MTPs in addition to oligo-dT resulted in higher sensitivity, a greater number of well-measured genes, more genes significantly differentially expressed, and a greater power to detect meager differences. Saccharomyces cerevisiae S288c was grown on two different media and two different primers were used for reverse transcription: oligo(dT) and Multi-Targeted Primer [MTP] protoperithecia oligo(dT)+ MTP (PP2) perithecia oligo(dT)+ MTP (PT2). Two biological replicates and dye swapping

Project description:To uncover exon junction complex (EJC) deposition sites on cellular mRNAs, RNA footprints of EJC immuo-purified from HEK293 cells were deep sequenced. The analysis of these data revealed that major “canonical” EJC occupancy site in vivo lies 24 nucleotides upstream of exon junctions (-24 position) and that the majority of exon junctions carry an EJC. Unexpectedly, we find that many sites further upstream of -24 position are also enriched in these EJC footprints. These &quot;non-canonical&quot; sites are binding sites of EJC-interacting proteins with a subset being occupied by SR proteins. Thus, an EJC-SR protein nexus exists within spliced mRNPs and is revealed here. Deep sequencing based profiling of EJC RNA footprints obtained by tandem RNA immunoprecipitation (RIPiT) of RNase I digested RNA:protein complexes.

Project description:An early-differentiated CD8+ memory T cell subset with stem cell-like properties (TSCM) can be identified within the naïve-like T cell population by the expression of CD95/Fas. Based on experiments including exon- and gene-level expression analysis, we provide evidence that this subset of antigen-specific cells represents an early precursor of conventional central (TCM) and effector (TEM) memory CD8+ T cells with enhanced self-renewal capacity and proliferative potential. We identified 900 genes differentially expressed between major T cell subsets defined along with memory T cell commitment. Based on the analysis of these genes, CD95+ naïve T cells (TSCM) cluster closer to the CD8+ T memory compartment than to classical (CD95-) naïve T (TN) cells, and display an intermittent phenotype between classical TN and TCM cells in terms of all major T cell differentiation markers analyzed. Three healthy human blood donors provided lymphocyte-enriched apheresis blood for this study after informed consent. From all samples, total RNA was isolated using an RNEasy Micro kit (Qiagen), processed by Ambion’s WT expression kit, fragmented and labeled with a WT Terminal Labeling Kit (Affymetrix), hybridized to WT Human Gene 1.0 ST arrays (Affymetrix) and stained on a Genechip Fluidics Station 450 (Affymetrix), all according to the respective manufacturer's instructions. Samples represent &quot;exon-level&quot; and &quot;gene-level&quot; analyses.