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miRNA-seq Analysis

What Are Small RNAs and miRNAs?

Small RNAs are a diverse class of short, non-coding RNA molecules, typically smaller than 200  nucleotides. Among these, microRNAs (miRNAs) are the most extensively studied and characterized. miRNAs are involved in the regulation of gene expression at the post-transcriptional level, playing crucial roles in controlling various cellular processes, such as development, differentiation, and response to stress. Other types of small RNAs include small interfering RNAs (siRNAs), piwi-interacting RNAs (piRNAs), and transfer RNA-derived fragments (tRFs), each of which has distinct biological functions. However, miRNAs have garnered the most attention due to their significant involvement in numerous biological pathways and diseases.

The Biological Function of miRNAs

miRNAs act as critical regulators of gene expression and cellular homeostasis. miRNAs function primarily by binding to complementary sequences on messenger RNAs (mRNAs), leading to mRNA degradation or inhibition of translation. This regulatory mechanism is vital for maintaining appropriate gene expression levels and ensuring proper cellular function. Aberrations in miRNA expression have been linked to numerous diseases, including cancer, neurodegenerative disorders, and cardiovascular conditions, making miRNAs promising biomarkers for disease diagnostics and therapeutic targets. Other small RNAs, such as siRNAs, play essential roles in gene silencing by targeting specific mRNAs, while piRNAs are primarily involved in maintaining genomic stability by suppressing transposable elements in germ cells.

NGS Applications in Small RNA and miRNA Research

Next-Generation Sequencing (NGS) has revolutionized small RNA and miRNA research by providing high-throughput, precise profiling of these molecules. Small RNA sequencing using NGS enables the identification and quantification of known and novel miRNAs, providing insights into their roles in gene regulatory networks and disease pathways. Researchers can also use NGS to explore miRNA expression patterns across different tissue types, developmental stages, or disease states, helping to uncover their functional relevance. Additionally, small RNA sequencing can be used to identify new classes of small RNAs, analyze the impact of miRNA mutations, and discover miRNA targets, offering a powerful approach for understanding the complexities of gene regulation.

Revvity's Complete Small RNA-Seq Library Preparation Workflow

Revvity provides a comprehensive small RNA-seq library preparation workflow that is designed to overcome common challenges in small RNA research, such as bias and human error. Our small RNA-seq solution minimizes the risk of sequence bias through optimized adapter ligation and amplification steps, ensuring a more accurate representation of the small RNA population in your samples. Additionally, the workflow is compatible with automation, reducing human intervention and the risk of contamination while increasing reproducibility. The automated, gel-free nature of the Revvity small RNA-seq workflow not only streamlines the library preparation process but also enables high-throughput studies, making it an ideal solution for researchers studying miRNA expression on a large scale.

Exceptional miRNA Discovery with Revvity's Solution

The optimized design of Revvity's small RNA-seq kits facilitates robust  detection of both highly abundant and low-abundance miRNAs, delivering a comprehensive view of miRNA expression across samples. The workflow includes everything needed for a successful library preparation, from adapter ligation and cDNA synthesis to library amplification, all in a user-friendly format. Our approach ensures consistent and high-quality sequencing results, making it easier for researchers to achieve exceptional miRNA discovery and draw meaningful biological conclusions. Whether you are studying miRNAs for biomarker discovery, disease characterization, or functional genomics, Revvity’s small RNA-seq solutions are tailored to support your research objectives with accuracy and efficiency.


For research use only. Not for use in diagnostic procedures.

miRNA-seq Analysis

Sample homogenization

Jumpstart your cancer research with a robust and powerful homogenizer designed to simplify sample preparation and prepare high quality lysates prior to nucleic acid extraction and miRNA workflows. 

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Small RNA-seq extraction

To realize the full potential of miRNA as biomarkers, we offer a reliable workflow to extract efficiently circulating cell free RNA at high yield and purity.

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Small RNA sizing and relative abundance analysis

The LabChip® small RNA assay provides a fast and easy way to separate and measure a variety of small RNA samples, ranging in size from 20 to 150 nucleotides (nt), including microRNA (miRNA), small interfering RNA (siRNA), piwi-interacting RNA (piRNA), RNA aptamers, transfer RNA (tRNA) and CRISPR guide RNA (gRNA). Performing small RNA sample analysis with the new small RNA assay saves time and money by automating steps for small RNA sizing and relative abundance.

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Gel-free small RNA-seq library prep

The new NEXTFLEX® Small RNA-Seq Kit v4 allows preparation of small RNA libraries ready for sequencing on certain Illumina® platforms in approximately 6 hours with as little input as 1 ng of total RNA. Libraries prepared with this kit have a higher proportion of mapping reads and unique miRNAs than other workflows available in the market.

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Automation of small RNA-seq workflows

Small RNA library preparation is one of the most difficult types of NGS library preparation, which can be simplified with automation to enable you to improve miRNA discovery.

The NEXTFLEX Small RNA-Seq Kit v4 is a gel-free, fully automatable protocol using an adapter dimer reduction approach. The advantage is that the protocol automated on the Sciclone® G3 NGS/NGSx and Zephyr® G3 NGS workstations enables high sample throughput, generating more libraries in less time while maintaining data quality.

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