Highly efficient mRNA purification kit, enabling the removal of >99% rRNA, with minimal hands-on time and maximal convenience.
The NuAction™ mRNA Bead Kit provides researchers with a streamlined solution for isolating mRNA with exceptional purity, ideal for downstream applications such as next-generation sequencing (NGS), quantitative PCR, and microarray analysis. By effectively depleting rRNA and non-adenylated, non-coding RNA, as well as regulatory RNA, this kit enriches mRNA from various eukaryotic species, ensuring optimal utilization of sequencing capacity and resources.
Designed for maximal convenience and efficiency, the kit’s protocol requires less than 45 minutes to complete, minimizing hands-on time while delivering consistently high-quality mRNA. With the option for automation on the Avam® AutEx™ Platform, researchers can further enhance workflow efficiency, making it suitable for laboratories with high sample volumes or demanding experimental requirements.
● Avam® mRNA Beads
● Buffers
● Nuclease-Free Water
● Small Spin Columns
● Collection Tubes
● Efficiency: >99% removal of rRNA
● Input RNA: 100 ng – 5 μg total RNA
● Preparation Time: <45 minutes
● Automation: Compatible with the Avam® AutEx™ Platform
● Next-generation sequencing
● Quantitative, real-time PCR
● Microarray analysis
The NuAction™ mRNA Bead Kit offers unparalleled convenience and cost-effectiveness, delivering mRNA of maximal purity with only one round of purification. Its efficient removal of rRNA and streamlined protocol minimize resources and costs, making it the ideal choice for NGS applications.
Yes, the majority of the NuAction™ mRNA Bead Kit procedure, from hybridization to RNA cleanup, can be fully automated on the QIAcube, reducing hands-on time and enhancing processing efficiency.
The kit requires as little as 100 ng to 5 µg of total RNA for efficient mRNA purification, providing flexibility for various experimental setups and sample types.
RNA purified using the NuAction™ mRNA Bead Kit is well-suited for a wide range of applications, including next-generation sequencing, quantitative PCR, and microarray analysis, enabling researchers to explore gene expression patterns and regulatory mechanisms with confidence.
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