Project description:Background: For many years, increasing demands for fossil fuels have met with limited supply. As a potential substitute and renewable source of biofuel feedstock, microalgae have received significant attention. However, few of the current algal species produce high lipid yields to be commercially viable. To discover more high yielding strains, next-generation sequencing technology is used to elucidate lipid synthetic pathways and energy metabolism involved in lipid yield. When subjected to manipulation by genetic and metabolic engineering, enhancement of such pathways may further enhance lipid yield. Results: In this study, transcriptome profiling of a random insertional mutant with enhanced lipid production generated from a non-model marine microalga Dunaliella tertiolecta is presented. D9 mutant has a lipid yield that is 2-4 fold higher than that of wild type. Using novel Bag2D-workflow scripts developed and reported here, the non-redundant transcripts from de novo assembly were annotated based on the best hits in five model microalgae, namely Chlamydomonas reinhardtii, Coccomyxa subellipsoidea C-169, Ostreococcus lucimarinus, Volvox carteri, and Chlorella variabilis NC64A. The assembled contigs (~181 Mb) includes 481,381 transcripts, covering 10,185 genes. Pathway analysis showed that a pathway from inositol phosphate metabolism to fatty acid biosynthesis is the most significantly correlated with higher lipid yield in this mutant. Conclusion: Herein, we described a pipeline to analyze RNA-Seq data without pre-existing transcriptomic information. The draft transcriptome of D. tertiolecta was constructed and annotated, which offered useful information for characterizing high lipid-producing mutants. D. tertiolecta mutant was generated with an enhanced photosynthetic efficiency and lipid production. RNA-Seq data of the mutant and wild type were compared, providing biological insights into the expression patterns of contigs associated with energy metabolism and carbon flow pathways. Comparison of D. tertiolecta genes with homologs of five other green algae can facilitate the annotation of D. tertiolecta, and lead to a more complete annotation of its sequence database, thus laying the groundwork for optimization of lipid production pathways based on genetic manipulation.

Project description:This study annotates the NGS reads in a Sertoli cell sncRNA library. In addition to known sncRNAs, we also identified numerous novel sncRNAs expressed by Sertoli cells. Our data suggest that the Sertoli cell sncRNA transcriptome predominantly consists of miRNAs, piRNA-like RNAs, tRNAs and snoRNAs. This study reports the first comprehensive annotation of the Sertoli cell sncRNA transcriptome. Sertoli cells were purified from post-natal day 6 C57Bl/6 mice using the STAPUT unit gravity sedimentation apparatus. Small RNA was isolated from cells and a cDNA library was generated for 454 sequencing. Sequences from FastA files were initially mapped to known sequences and the genome and subsequently annotated upon novel small RNA categorization.

Project description:We have identified Mbnl2 mediated splicing events and mRNA expression regulation by comparing WT and Mbnl2 ΔE2/ΔE2 mouse hippocampii using Affymetrix Mouse Exon Junction Array and mRNA sequencing. The splicing microarray data has already been submitted under GSE37908 which also includes a re-analysis of RNA-seq data. The TableS1.xls contains Splicing microarray analysis data of Mbnl2+/+ vs. MBNL2 ΔE2/ΔE2 knockout hippocampus. The TableS2.xls files contain RNA-Seq, Gene Ontology, HITS-CLIP and CIMS summary of Mbnl2+/+ vs. MBNL2 ΔE2/ΔE2 knockout hippocampus. The file contents are descibed in the 'TableS1_S2_readme.pdf' and data processing details are included in the 'data_processing_readme.pdf' file. The Mbnl2_TableS2.xls contains data from exon junction microarrays for splicing analysis between WT and Mbnl2 delta2 mice. It also contains RNA-seq based splicing analysis between WT and Mbnl2 delta2 mice. Mbnl2_TableS2 further contains common targets between the two analyses, Gene Ontology and finally the HITS-CLIP data. CLIP tag summary describes read numbers for the three biological replicates. CLIP sig peaks contains significant HITS-CLIP unique reads/peaks after processing the data (BED files). Finally, CIMS analysis describes the Mbnl2 binding motif.

Project description:The study describes comprehensive proteomics data of the cholesteatoma disease. Cholesteatoma is a serious and destructive growth of keratinizing squamous epithelium in the middle ear, with a poorly understood etiopathogenesis. The large scale proteomics approach used in this study highly expands our molecular knowledge of cholesteatoma and implicates several biological functions in its pathology. Human samples of cholesteatoma, neck of cholesteatoma, tympanic membrane, external auditory canal skin, and middle ear mucosa were analyzed. Approximately two thousand unique proteins were identified by label-free nanoLC-MS/MS proteomics. The protein and peptide identification data were obtained by Proteome Discoverer (Thermo Scientific, version 1.3.0.339) processing of LTQ Orbitrap raw files using the Mascot algorithm (Matrix Sciences, version 2.4.0). To yield comprehensive proteome data the tissue biopsy was separated into ten protein fractions, which were MS analysed separately, and the resulting MS files were subsequently merged in the database analysis. Precursor mass tolerance was 5 ppm and fragment mass tolerance was 0.5 Da. Dynamic Modification was Oxidation (M) and Static Modification was Carbamidomethyl (C); annotated in the PRIDE files as mass deviations (e g for double charged peptides m/z deviation of approximately 8.00 and 28.51 for modification of Met and Cys, respectively). FASTA file was SwissProt_2012_03.fasta (containing 20,255 Homo sapiens sequences). MudPit scoring was applied, and up to two missed trypsin cleavages were accepted. Peptide cut off Score was 10 and protein relevance threshold was 20.

Project description:This study annotates the NGS reads in ICC and Sm Int sncRNA libraries. In addition to known sncRNAs, we identified numerous somatic piRNA-like RNAs. This study confirms the expression of pilRNAs in somatic tissues and outlines their major characteristics. ICC and Sm Int were collected from adult mice (C57BL/6). Small RNA was isolated from samples and cDNA libraries were generated for 454 sequencing. Sequences from FastA files were aligned to known sncRNA and the mouse mm9 genome. This was followed by subsequent novel small RNA annotation.

Project description:Comparison between pretreated donor grafts corticosteroid vs. placebo Prospective, randomised, double-blind, placebo-control trial, xls files contain normalized data (Default Total Intensity Normalization, see Stanford Microarray Database website), gpr files the raw data

Project description:Oleaginous microalgae are considered a promising platform for the sustainable production of high-value lipids and biofuel feedstocks. However, current lipid yields are too low to allow for an economically feasible production process. Lipid yields could be enhanced by improving microalgal strains through genetic engineering. Strain improvement strategies for the industrially relevant genus Nannochloropsis have met limited success because most genes of this genus lack a functional annotation, hindering our understanding of lipid metabolism and its regulation. To gain fundamental insights and to provide targets for genetic engineering of lipid metabolism, the aim of this study was to discover novel genes that are associated with higher neutral lipid (NL) content in Nannochloropsis oceanica. Therefore, we constructed a random gene knockout (KO) insertional mutagenesis library of N. oceanica, and we screened it by five rounds of fluorescence-activated cell sorting to select high lipid mutant (HLM) strains. Several strains showed increased NL contents compared to the wild type under favorable growth conditions. By using an adapted cassette PCR strategy involving the type IIS restriction endonuclease MmeI, we traced the responsible genetic KO of the five most promising mutant strains. One particularly promising mutant strain (HLM23) was disrupted in gene NO06G03670, which encodes a putative APETALA2-like transcription factor. HLM23 was not affected in growth rate, had increase d photosynthetic performance and a NL content of 30% dry cell weight^(-1), a 40% increase compared to the wild type. RNA sequencing revealed a transcriptional upregulation of genes related to plastidial fatty acid biosynthesis, glycolysis and the Calvin–Benson–Bassham cycle in this mutant.

Project description:Babesia infected (and control) ovary tissue was used to construct LongSAGE libraries. The intent was to find differential gene expression in both libraries. Details: The extraction was done using Ambion's ToTALLY RNA kit, and the concatemers where constructed using Invitrogen's I-SAGE Long kit. The concatmer files (multiple fasta sequence files) were processed using in-house perl scripts to extract the 17bp LongSAGE tags. **Note: contact person: Felix D. Guerrero. email: felix.guerrero@ars.usda.gov Keywords: LongSAGE

Project description:In Europe, ticks are the most important vectors of diseases threatening humans, livestock, wildlife and companion animals. Nevertheless, genomic sequence information and functional annotation of proteins of the most important European tick, Ixodes ricinus, is limited. Here we present the first analysis of the I. ricinus genome and of the transcriptome of the unfed I. ricinus midgut. We combined and integrated data from genome, transcriptome and proteome. The de novo assembly of 1 billion paired-end sequences identified 6,415 putative genes providing an unprecedented insight into the I. ricinus genome. Mapping of our midgut mRNA reads to the assembled contigs let us estimate to cover around two third of the unique genomic sequences. In addition, more than 10,000 transcripts from naïve midgut were annotated functionally and/or locally. By combining the alignment-based with a motif-search based annotation approach, we could double the number of annotations throughout all groups without shifting the dataset. Moreover, 1,175 proteins expressed in the naïve midgut were identified by mass spectrometry confirming the high completeness of our transcriptome database, and 608 were significantly annotated for function and/or localization. This multiple-omics study vastly extends the publicly available DNA, RNA and protein databases for I. ricinus and ticks in general.

Project description:Background: Microalgae can make a significant contribution towards meeting global renewable energy needs in both lipid-based liquid biofuel and hydrogen biofuel. The development of energy-related products and chemicals from algae could be accelerated with improvements in systems biology tools, and recent advances in sequencing technology provide a platform for enhanced transcriptomic analyses. However, these techniques are still heavily reliant upon available genomic sequence data. We have developed a de novo sequencing, annotation, and quantitation pipeline that can be applied to unsequenced organisms for effective quantitative gene expression profiling. Chlamydomonas moewusii is a unicellular green alga capable of evolving molecular hydrogen (H2) under both dark and light anaerobic conditions, and has high hydrogenase activity that can be rapidly induced. However, to date, there is no systematic investigation of transcriptomic profiling during induction of hydrogen photoproduction in this organism. Results: In this work, we measured rates of hydrogen production and extracted RNA from samples of C. moewusii following various lengths of dark anaerobic incubation. RNA-Seq was applied to investigate transcriptomic profiles during the dark anaerobic induction of hydrogen photoproduction. One hundred fifty six million reads generated from seven samples were then used for de novo assembly after data trimming. The BlastX results against NCBI database and Blast2GO results were used to interpret the functions of the assembled 39,136 contigs, which were then used as the reference transcripts for RNA-Seq analysis. Nearly 98% transcripts had Blast hits, although more than one-third were annotated as hypothetical proteins. The expression value of RNA-Seq results was imported into statistical software for data quality control, normalization, and subsequent statistical analyses such as One-way ANOVA and K-means Clustering. Our results indicated that more transcripts were differentially expressed during the period of early and higher hydrogen photoproduction, and fewer transcripts were differentially expressed when rates of hydrogen photoproduction decreased. Conclusions: Herein, we have described a workflow to analyze RNA-Seq data without reference genome sequence information, which can be applied to the rapid development of other unsequenced microorganisms (both prokaryotic and eukaryotic) with the potential for development as fuel production strains. This study provided the first transcriptomic RNA-Seq dataset, as well as biological insights into the metabolic changes that occur concomitant with induction of hydrogen photoevolution in C. moewusii, which can help further development of this organism as a hydrogen photoproduction strain. Examine time course gene differential expression post anaerobic induction for hydrogen production