QIAseq UPX 3’ Transcriptome Kits

For high-throughput 3' transcriptome analysis from up to 10 ng of purified RNA or cell lysates using next-generation sequencing

S_8598_QIAseq_UPX_3Transcriptome_s

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QIAseq UPX 3' Transcriptome Kit (96)

Cat. No. / ID:   333088

For 3' gene expression analysis from cells or mRNA of 8–96 samples at one time; each kit contains cell lysis solution, buffers, oligos and enzymes lyophilized in a 96-well plate which can be easily separated for processing 8–96 samples in parallel (this format is ideal for both small and large sample sizes)
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KitIndexAccessories
QIAseq UPX 3' Transcriptome Kit
Index
QIAseq UPX Cell Lysis Kit (6 ml)
Samples
96
4 x 96
384
QIAseq UPX 3’ Transcriptome Kits are intended for molecular biology applications. These products are not intended for the diagnosis, prevention, or treatment of a disease.

✓ 24/7 automatic processing of online orders

✓ Knowledgeable and professional Product & Technical Support

✓ Fast and reliable (re)-ordering

Features

  • Start with 10 pg to 10 ng of isolated total RNA, cell lysates
  • UPX tagging allows 4608–18,432 samples per single sequencing lane
  • UMIs eliminate library amplification bias for accurate gene expression
  • LNA-enhanced chemistry for increased accuracy, specificity and sensitivity
  • Includes access to the RNA-seq Analysis Portal for human, mouse and rat samples

Product Details

QIAseq UPX 3' Transcriptome Kits enable high-throughput gene expression analysis from cell lysates and isolated total RNA. Each kit is enough for 96 or 384 libraries with kit formats comprised of either 96-well multi-break plates or 384-well single-use plates with reverse transcription primers already lyophilized in the bottom of the plates for ease of use. To build libraries for RNA-seq, simply add cells or up to 10 ng of total RNA to reconstitute a reverse transcription reaction. After cDNA synthesis, combine each plate into a single tube to complete the library preparation. All reagents necessary for starting with cells (such as lysis reagents) or RNA are included in the kit.

Analyze 3’ RNA-seq data with ease using the GeneGlobe-integrated RNA-seq Analysis Portal – an intuitive, web-based data analysis solution created for biologists and included with QIAseq UPX 3’ Transcriptome Kits.

Want to try this solution for the first time? Request a quote for a trial kit.

Performance

The QIAseq UPX 3' Transcriptome Kit presents a unique advantage where each cell is tagged with a unique ID (up to 384 different IDs) and each RNA molecule is tagged with a Unique Molecular Index (UMI) during reverse transcription. Following reverse transcription with integrated template switching, all individually tagged cDNAs can be combined, which enables all subsequent library construction steps to be performed in a single tube – saving significant time and library prep costs. QIAseq UPX 3’ Transcriptome Kits provide a convenient, streamlined and reproducible library construction workflow starting with as little as 10 pg total RNA (see figures " Streamlined and Reproducible Workflow Starting from 10 pg to 1 ng of Total RNA", " Consistency of Detection with QIAseq UPX 3’ Transcriptome Kits and " Library QC and Quantification").
See figures

Principle

QIAseq UPX 3' Transcriptome Kits enable Sample to Insight, high-throughput NGS of polyadenylated RNAs from cell lysates or isolated RNA on Illumina NGS instruments. Kits are intended for library construction and analysis of cell pellets (up to 100 cells) or purified RNA (10 pg to 10 ng). QIAseq UPX 3' Transcriptome Kits present an innovative advantage in that during reverse transcription, each cell is tagged with a unique ID (up to 384 different IDs) and each RNA molecule is tagged with a Unique Molecular Index (UMI). Following reverse transcription with integrated template switching, all individually tagged cDNAs can be combined, which enables all subsequent library construction steps to be performed in a single tube. This prevents sample mixup, saves substantial time and dramatically reduces library prep costs. During subsequent amplification and library construction up to 48 different sample IDs can be assigned. Together, the combination of cell IDs and sample IDs enables up to 18,432 libraries to be sequenced together. The GeneGlobe-integrated RNA-seq Analysis Portal enables primary mapping and differential expression analysis.

Procedure

Innovative, optimized workflow

The QIAseq UPX 3' Transcriptome Kit defines a new generation of high-throughput NGS technologies in QIAGEN’s Sample to Insight workflow. Purified RNA or RNA from cell lysates are first reverse transcribed and each RNA molecule is given a Unique Molecular Index (UMI) and well-specific IDs are assigned (up to 384 wells; cell IDs). Following reverse transcription with integrated template switching, all cDNAs are combined, enabling simplified library construction steps to be performed in a single tube. During subsequent amplification and library construction, up to 48 different library indices (sample IDs) can be assigned. The combination of cell IDs and sample IDs enables up to 18,432 libraries to be sequenced simultaneously (see figures " Innovative and Optimized QIAseq UPX 3' Transcriptome Kit Workflow" and " QIAGEN’s Sample to Insight QIAseq UPX 3' Transcriptome Workflow").

Convenient GeneGlobe data analysis

QIAseq UPX cloud-based data analysis is available via the GeneGlobe Data Analysis Center and provides read alignments, UMI and sample de-multiplexing, with low-input gene expression analysis.

See figures

Applications

  • High-throughput screening applications (e.g., toxicology research)
  • Differential gene expression analysis

Supporting data and figures

Resources

Safety Data Sheets (2)
Download Safety Data Sheets for QIAGEN product components.
Download Safety Data Sheets for QIAGEN product components.
Quick-Start Protocols (3)
Part 1: Cell lysis and reverse transcription
Part 3: Adapter ligation and universal PCR
Part 2: Template amplification and fragmentation, end-repair, and A-addition
Next Generation Sequencing (1)
Certificates of Analysis (1)