Project description:BACKGROUND:Alternative polyadenylation (APA) is a widespread phenomenon in the posttranscriptional regulation of gene expression that generates mRNAs with alternative 3'-untranslated regions (3'UTRs). APA contributes to the pathogenesis of various diseases, including cancer. However, the potential role of APA in the development of nasopharyngeal carcinoma (NPC) remains largely unknown. METHODS:A strategy of sequencing APA sites (SAPAS) based on second-generation sequencing technology was carried out to explore the global patterns of APA sites and identify genes with tandem 3'UTRs in samples from 6 NPC and 6 normal nasopharyngeal epithelial tissue (NNET). Sequencing results were then validated using quantitative RT-PCR in a larger cohort of 16 NPC and 16 NNET samples. RESULTS:The sequencing data showed that the use of tandem APA sites was prevalent in NPC, and numerous genes with APA-switching events were discovered. In total, we identified 195 genes with significant differences in the tandem 3'UTR length between NPC and NNET; including 119 genes switching to distal poly (A) sites and 76 genes switching to proximal poly (A) sites. Several gene ontology (GO) terms were enriched in the list of genes with switched APA sites, including regulation of cell migration, macromolecule catabolic process, protein catabolic process, proteolysis, small conjugating protein ligase activity, and ubiquitin-protein ligase activity. CONCLUSIONS:APA site-switching events are prevalent in NPC. APA-mediated regulation of gene expression may play an important role in the development of NPC, and more detailed studies targeting genes with APA-switching events may contribute to the development of novel future therapeutic strategies for NPC.

Project description:In eukaryotes, 3' untranslated regions (UTRs) play important roles in regulating posttranscriptional gene expression. The 3'UTR is defined by regulated cleavage/polyadenylation of the pre-mRNA. The advent of next-generation sequencing technology has now enabled us to identify these events on a genome-wide scale. In this study, we used poly(A)-position profiling by sequencing (3P-Seq) to capture all poly(A) sites across the genome of the freshwater planarian, Schmidtea mediterranea, an ideal model system for exploring the process of regeneration and stem cell function. We identified the 3'UTRs for ?14,000 transcripts and thus improved the existing gene annotations. We found 97 transcripts, which are polyadenylated within an internal exon, resulting in the shrinking of the ORF and loss of a predicted protein domain. Around 40% of the transcripts in planaria were alternatively polyadenylated (ApA), resulting either in an altered 3'UTR or a change in coding sequence. We identified specific ApA transcript isoforms that were subjected to miRNA mediated gene regulation using degradome sequencing. In this study, we also confirmed a tissue-specific expression pattern for alternate polyadenylated transcripts. The insights from this study highlight the potential role of ApA in regulating the gene expression essential for planarian regeneration.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Well-developed maize reference genomes and genotyping technology along with fast decreasing detection costs have enabled the chance of shifting essentially derived varieties (EDV) identification to high-throughput SNP genotyping technology. However, attempts of using high-throughput technologies such as SNP array on EDV identification and the essential baseline parameters such as genetic homozygosity and/or stability in EDV practices have not been characterized. Here, we selected 28 accessions of 21 classical maize inbreds, which definitely form a pedigree network from initial founders to derivatives that had made huge contribution to corn production, to demonstrate these fundamental analyses. Our data showed that average residual heterozygosity (RH) rate of these 28 accessions across genome was about 1.03%. However, the RH rate of some accessions was higher than 3%. In addition, some inbreds were found to have an overall RH rate lower than 2% but over 8% level at certain chromosomes. Genetic drift (GD) between two accessions from different years or breeding programs varied from 0.13% to 13.16%. Accessions with low GD level showed cluster distribution pattern and compared with RH distributions indicated that RH was not the only resource of GD. Both RH and GD data suggested that genetic purity analysis is an essential procedure before determining EDV. Eleven derivative lines were characterized with regard to their genome compositions and were inferred as their breeding histories. The backcross, bi-parental recycling, and mutation breeding records could be identified. The data provide insights of underlining fundamental parameters for defining EDV threshold and the results demonstrate the EDV identification process.

Project description:BACKGROUND: The recent development within high-throughput technologies for expression profiling has allowed for parallel analysis of transcriptomes and proteomes in biological systems such as comparative analysis of transcript and protein levels of tissue regulated genes. Until now, such studies of have only included microarray or short length sequence tags for transcript profiling. Furthermore, most comparisons of transcript and protein levels have been based on absolute expression values from within the same tissue and not relative expression values based on tissue ratios. RESULTS: Presented here is a novel study of two porcine tissues based on integrative analysis of data from expression profiling of identical samples using cDNA microarray, 454-sequencing and iTRAQ-based proteomics. Sequence homology identified 2.541 unique transcripts that are detectable by both microarray hybridizations and 454-sequencing of 1.2 million cDNA tags. Both transcript-based technologies showed high reproducibility between sample replicates of the same tissue, but the correlation across these two technologies was modest. Thousands of genes being differentially expressed were identified with microarray. Out of the 306 differentially expressed genes, identified by 454-sequencing, 198 (65%) were also found by microarray. The relationship between the regulation of transcript and protein levels was analyzed by integrating iTRAQ-based proteomics data. Protein expression ratios were determined for 354 genes, of which 148 could be mapped to both microarray and 454-sequencing data. A comparison of the expression ratios from the three technologies revealed that differences in transcript and protein levels across heart and muscle tissues are positively correlated. CONCLUSION: We show that the reproducibility within cDNA microarray and 454-sequencing is high, but that the agreement across these two technologies is modest. We demonstrate that the regulation of transcript and protein levels across identical tissue samples is positively correlated when the tissue expression ratios are used for comparison. The results presented are of interest in systems biology research in terms of integration and analysis of high-throughput expression data from mammalian tissues.

Project description:This study is the first to report genome-scale polyadenylation events in S.mediterranea using poly-A position profiling (3P-Seq).Various cis-acting elements such as hexameric PAS & U/GU enrichment after cleavage site were observed to be conserved in planaria.The cleavage site derived from 3P-Seq could be successfully associated with ~38-60% of transcripts (Makers -38%, oxford- 60% and Dresden- 44%).We also investigated the functional consequences of altered 3’UTRs arising from ApA. Around 97 transcripts were observed to undergo coding region alternate polyadenylation (CR-ApA) that resulted in loss of specific domains from proteins (as inferred from pfam domain search). In this study, we also demonstrated that microRNA-mediated regulation might be one of the key factors playing an important role in selection/evolution of alternate 3’UTRs. The 3’ UTR is one of the key regulatory element that decides the fate of mRNA inside a cell. Switching isoforms according to the need of cell and environmental cues could help the cell to adapt. In this study, we also attempted to study the tissue-specific role of ApA pattern in planaria. Due to the limitations associated with isolation of different tissue-specific cells from planaria, we performed a high-throughput microarray analysis across X1, X2 and Xins cell populations. We were clearly able to identify the differential expression pattern of the ApA events across cell population.

Project description:This study is the first to report genome-scale polyadenylation events in S.mediterranea using poly-A position profiling (3P-Seq).Various cis-acting elements such as hexameric PAS & U/GU enrichment after cleavage site were observed to be conserved in planaria.The cleavage site derived from 3P-Seq could be successfully associated with ~38-60% of transcripts (Makers -38%, oxford- 60% and Dresden- 44%).We also investigated the functional consequences of altered 3’UTRs arising from ApA. Around 97 transcripts were observed to undergo coding region alternate polyadenylation (CR-ApA) that resulted in loss of specific domains from proteins (as inferred from pfam domain search). In this study, we also demonstrated that microRNA-mediated regulation might be one of the key factors playing an important role in selection/evolution of alternate 3’UTRs. The 3’ UTR is one of the key regulatory element that decides the fate of mRNA inside a cell. Switching isoforms according to the need of cell and environmental cues could help the cell to adapt. In this study, we also attempted to study the tissue-specific role of ApA pattern in planaria. Due to the limitations associated with isolation of different tissue-specific cells from planaria, we performed a high-throughput microarray analysis across X1, X2 and Xins cell populations. We were clearly able to identify the differential expression pattern of the ApA events across cell population.

Project description:Background:Alternative polyadenylation (APA) is an important post-transcriptional regulation in eukaryotic cells. It plays considerable roles in many biological processes and diseases, such as cell differentiation, proliferation and cancer. Colorectal cancer (CRC) is one of the most common malignancies worldwide, which is among the top five in incidence and mortality of all cancers in China. Although there have been some studies on the APA of CRC, the normal and carcinoma samples used for genome-wide profiling were not matched. The purpose of this study was to obtain genes with switched 3'-untranslated region (UTR) that may be associated with intracellular regulation of CRC by analyzing APA patterns of strict control groups from clinical patients. Materials and methods:CRC and matched normal tissues were acquired from surgical specimens from three CRC patients. Their libraries of 3'-terminal fragments of mRNA with poly(A) tails were constructed by 3T-seq technology and sequenced by Illumina Hiseq X Ten. APA patterns of cancer and matched normal tissues were analyzed by bioinformatics analysis, and a representative gene, GPI, was verified by quantitative reverse transcription PCR. Results:Overall, we identified 35,076 poly(A) sites in total. Compared to the matched normal tissues, we detected 350, 405 and 375 genes with significantly APA-mediated 3'-UTR alteration in cancer tissues of three patients, respectively. Forty-seven genes with switched 3'-UTR were shared in all three patients. In addition, most of these genes have shortened 3'-UTRs, some of which were associated with cancers, such as GPI. Conclusion:Our studies found several genes with switched 3'-UTR in CRC patients, which may provide some important clues for more in-depth study of the cellular regulation in CRC from the perspective of post-transcriptional regulation. It may also help in the search for new biomarkers of CRC.

Project description:BackgroundLung cancer is the second most common cancer with an extremely poor overall survival rate. Post-transcriptional regulation of gene expression play many important roles in human cancer, and one of the potential mechanisms underlying this is alternative mRNA maturation at its 3' untranslated regions (3'-UTRs).MethodsCancer tissues and paired adjacent normal lung tissues from 26 patients diagnosed with non-small cell lung cancer (NSCLC) were analyzed by in vitro transcription-sequencing alternative polyadenylation sites (IVT-SAPAS). 41,773,101 reads in average were obtained from each paired sample. A potential regulation of Cleavage Stimulation Factor Subunit 2 (CSTF2) on 3'UTR length of genes was tested in H460 cells.Results1439 (10.26%) genes showed up-regulated expression and 1364 (9.72%) genes showed down-regulated expression in lung cancer tissue versus normal lung tissue, and shorten 3'UTR in cancer tissue was detected in cancer tissues collected from 96.2% (25/26) patients, indicating lung cancer tend to have shortened 3'UTRs of these identified genes. KEGG analysis showed 1855 genes with shorten 3'UTR were enriched in mTOR signaling, ubiquitin mediated proteolysis and RNA degradation. Knocking down CSTF2 expression in H460 cells results in 3'UTR elongation of genes that was identified to be with shortened length in cancer tissues.ConclusionAlternative polyadenylation (APA) site-switching of 3'UTRs is prevalent in NSCLC, and CSTF2 may serve as an oncogene regulates the 3'UTR length of cancer related genes in NSCLC.

Project description:The plasticity of cancer cell invasion represents substantial hindrance for effective anti-metastatic therapy. To better understand the cancer cells' plasticity, we performed complex transcriptomic and proteomic profiling of HT1080 fibrosarcoma cells undergoing mesenchymal-amoeboid transition (MAT). As amoeboid migratory phenotype can fully manifest only in 3D conditions, all experiments were performed with 3D collagen-based cultures. Two previously described approaches to induce MAT were used: doxycycline-inducible constitutively active RhoA expression and dasatinib treatment. RNA sequencing was performed with ribo-depleted total RNA. Protein samples were analysed with tandem mass tag (TMT)-based mass spectrometry. The data provide unprecedented insight into transcriptome and proteome changes accompanying MAT in true 3D conditions.