Matches in DBpedia 2016-04 for { <http://wikidata.dbpedia.org/resource/Q2542347> ?p ?o }
Showing triples 1 to 50 of
50
with 100 triples per page.
- Q2542347 subject Q7164711.
- Q2542347 subject Q7213592.
- Q2542347 subject Q7216294.
- Q2542347 abstract "RNA-seq (RNA sequencing), also called whole transcriptome shotgun sequencing (WTSS), uses next-generation sequencing (NGS) to reveal the presence and quantity of RNA in a biological sample at a given moment in time.RNA-Seq is used to analyze the continually changing cellular transcriptome. Specifically, RNA-Seq facilitates the ability to look at alternative gene spliced transcripts, post-transcriptional modifications, gene fusion, mutations/SNPs and changes in gene expression. In addition to mRNA transcripts, RNA-Seq can look at different populations of RNA to include total RNA, small RNA, such as miRNA, tRNA, and ribosomal profiling. RNA-Seq can also be used to determine exon/intron boundaries and verify or amend previously annotated 5’ and 3’ gene boundaries.Prior to RNA-Seq, gene expression studies were done with hybridization-based microarrays. Issues with microarrays include cross-hybridization artifacts, poor quantification of lowly and highly expressed genes, and the knowledge of the sequence. Because of these technical issues, transcriptomics transitioned to sequencing-based methods. These progressed from Sanger sequencing of Expressed Sequence Tag libraries, to chemical tag-based methods (e.g., serial analysis of gene expression), and finally to the current technology, NGS of cDNA (notably RNA-Seq).".
- Q2542347 thumbnail RNASeqPics1.jpg?width=300.
- Q2542347 wikiPageExternalLink Next-Generation-Sequencing-and-its-Applications-in-RNA-Seq.pdf.
- Q2542347 wikiPageExternalLink expression.php.
- Q2542347 wikiPageExternalLink index.html.
- Q2542347 wikiPageWikiLink Q1073526.
- Q2542347 wikiPageWikiLink Q11053.
- Q2542347 wikiPageWikiLink Q1108970.
- Q2542347 wikiPageWikiLink Q1129238.
- Q2542347 wikiPageWikiLink Q1136628.
- Q2542347 wikiPageWikiLink Q12136.
- Q2542347 wikiPageWikiLink Q13522860.
- Q2542347 wikiPageWikiLink Q1384835.
- Q2542347 wikiPageWikiLink Q15087973.
- Q2542347 wikiPageWikiLink Q16335221.
- Q2542347 wikiPageWikiLink Q17162627.
- Q2542347 wikiPageWikiLink Q201448.
- Q2542347 wikiPageWikiLink Q201993.
- Q2542347 wikiPageWikiLink Q207551.
- Q2542347 wikiPageWikiLink Q215980.
- Q2542347 wikiPageWikiLink Q252857.
- Q2542347 wikiPageWikiLink Q26972.
- Q2542347 wikiPageWikiLink Q2844457.
- Q2542347 wikiPageWikiLink Q286721.
- Q2542347 wikiPageWikiLink Q2888953.
- Q2542347 wikiPageWikiLink Q310899.
- Q2542347 wikiPageWikiLink Q373027.
- Q2542347 wikiPageWikiLink Q380546.
- Q2542347 wikiPageWikiLink Q417379.
- Q2542347 wikiPageWikiLink Q501128.
- Q2542347 wikiPageWikiLink Q591745.
- Q2542347 wikiPageWikiLink Q6638161.
- Q2542347 wikiPageWikiLink Q703961.
- Q2542347 wikiPageWikiLink Q7164711.
- Q2542347 wikiPageWikiLink Q7213592.
- Q2542347 wikiPageWikiLink Q7216294.
- Q2542347 wikiPageWikiLink Q7307127.
- Q2542347 wikiPageWikiLink Q7919423.
- Q2542347 type Thing.
- Q2542347 comment "RNA-seq (RNA sequencing), also called whole transcriptome shotgun sequencing (WTSS), uses next-generation sequencing (NGS) to reveal the presence and quantity of RNA in a biological sample at a given moment in time.RNA-Seq is used to analyze the continually changing cellular transcriptome. Specifically, RNA-Seq facilitates the ability to look at alternative gene spliced transcripts, post-transcriptional modifications, gene fusion, mutations/SNPs and changes in gene expression.".
- Q2542347 label "RNA-Seq".
- Q2542347 seeAlso Q1108970.
- Q2542347 seeAlso Q412148.
- Q2542347 seeAlso Q501128.
- Q2542347 seeAlso Q6595357.
- Q2542347 seeAlso Q6638161.
- Q2542347 depiction RNASeqPics1.jpg.