Full Transcriptome Insight from Single Cell Sequencing 23.02.20261’ Review Why Single Cell Whole Transcriptome SequencingStandard single-cell RNA sequencing (scRNA-seq) provides only a partial view of cellular activity.mRNA comprises only a few percent of the total RNA content in a cell. Moreover, traditional methods focus solely on counting the ends of mRNA molecules, overlooking critical information contained along the length of the mRNA.Whole-transcriptome approaches allow you to move beyond simple mRNA “end-counting” to capture the full transcriptome, including:Coding and Non-Coding RNA: Capture both poly(A) and non-poly(A) species, including lncRNA and microRNA, to map the complete regulatory landscape.Full Gene Body Coverage: Access sequence information across the entire transcript. Identify expressed mutations, SNPs, and alternative splicing at the single cell level across the entire transcript.What is the Difference between Whole Transcriptome Sequencing and Standard scRNA-seq Standard Single Cell RNA-seq (scRNA-seq)• Detects mRNA • Requires Poly(A) tail • Only the 3’ or 5’ end of the gene is counted • Isoform analysis is limited to the 3’ or 5’ end of the transcript • Variant calling near the 3’ or 5’ end only Whole Transcriptome scRNA-seq• Detects coding and non-coding RNA (lncRNA, miRNA) • Detects non-Poly(A) or partially degraded mRNA • Full-length RNA is sequenced • Isoform detection across the entire transcript • Variant calling across the entire transcriptDemo DataFigure 1: Mouse bladder cancer FFPE single-nucleus sequencing data clustered by gene expression and overlaid with non-coding RNA expression.Get More data from your samplesAs research moves toward more detailed multi-omic profiling, capturing the full transcriptome ensures your datasets remain relevant and comprehensive.Whether you are investigating complex disease states or developmental pathways, you can now access the full breadth of RNA information without the limitations of panel-based or end-counting assays.Contact us to learn about whole transcriptome scRNA-seq optionsWe help researchers move beyond standard transcriptomics to uncover deeper biological insights. 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Email Search (Google/LLM) Social Media Friend/Colleague Conference/Seminar/Event OtherConsent* I consent to be contacted using the information I have provided. I have read and agree to the privacy policy* A post by Yingting WangCheck out our latest blog posts Learn more 25.11.10 % intron reads matter in single-cell RNA sequencing data. Why? When eukaryotic cells express DNA, DNA is transcribed into pre-messenger RNA (mRNA), which must then be processed into a mature, functional mRNA transcript. These changes… Read more 24.12.10 2024 in Review: A Year of Remarkable Scientific Breakthroughs What a year 2024 has been for the scientific community – in particular in the field of immuno-oncology! Researchers using Singleron’s products have collectively published over 150 studies this year, each one pushing the boundaries of our understanding of diseases and molecular mechanisms. We are immensely proud to celebrate the dedication and success of these brilliant scientists whose work continues to inspire and drive progress in the field. Read more 23.12.12 Annual Research Roundup: 2023's Most Impactful Publications! 2023 was a busy and successful year for our scientific community. As 2023 comes to an end, it is time to look back at some of theimpactful publications from this year. Read more
25.11.10 % intron reads matter in single-cell RNA sequencing data. Why? When eukaryotic cells express DNA, DNA is transcribed into pre-messenger RNA (mRNA), which must then be processed into a mature, functional mRNA transcript. These changes… Read more
24.12.10 2024 in Review: A Year of Remarkable Scientific Breakthroughs What a year 2024 has been for the scientific community – in particular in the field of immuno-oncology! Researchers using Singleron’s products have collectively published over 150 studies this year, each one pushing the boundaries of our understanding of diseases and molecular mechanisms. We are immensely proud to celebrate the dedication and success of these brilliant scientists whose work continues to inspire and drive progress in the field. Read more
23.12.12 Annual Research Roundup: 2023's Most Impactful Publications! 2023 was a busy and successful year for our scientific community. As 2023 comes to an end, it is time to look back at some of theimpactful publications from this year. Read more