microRNA (miRNA) Inhibitors from Exiqon

Pre-designed inhibitors for specific suppression of all microRNAs in miRBase and our proprietary miRPlus™ sequences
Sophisticated and innovative design
Unmatched high efficacy even for AT-rich microRNA targets
High and uniform potency enables multiplexing at low concentrations with minimal risk of off-target effects
Superior specificity and biological stability for long lasting antisense activity
End-labeling option for easy control of transfection efficiency

NEW powerful microRNA inhibitors

The new generation of miRCURY LNA™ microRNA Inhibitors were developed using novel advanced design algorithms that identify the optimal combination of length, sequence and LNA™ positioning. This ensures that the inhibitors offer a high uniform potency combined with excellent specificity and biological stability, while keeping self-complementarity to a minimum.

Three different product categories are available:
1. Pre-designed miRCURY LNA™ microRNA Inhibitors
2. Pre-designed miRCURY LNA™ microRNA Power Inhibitors
3. Custom miRCURY LNA™ microRNA Inhibitors

Coverage

Pre-designed miRCURY LNA™ microRNA Inhibitors and Power Inhibitors are available for all known microRNAs in invertebrates, vertebrates and plants as registered and annotated in miRBase.

The miRCURY LNA™ microRNA Inhibitors are available with fluorescein (6-FAM) labels or as ready-to-label oligonucleotides. All microRNA inhibitors are HPLC-purified and desalted and delivered in tubes containing 5 nmol dried-down oligonucleotide ready for transfection or electroporation using standard techniques.

Application

Our miRCURY LNA™ microRNA Inhibitors are ideal for use as specific suppressors of microRNA activity. Other applications include identification and validation of microRNA targets, the study of microRNA function in cellular processes and pathological pathways, and microRNA regulation of gene expression. Since the LNA™-enhanced microRNA Inhibitors are Tm-normalized, they are ideal for use in multiplexing and screening assays.

The miRCURY LNA™ microRNA Power Inhibitors have phosphorothioate (PS) backbones that stabilize the inhibitor. We therefore recommend these inhibitors in difficult applications where:

the transfection efficiency is limiting (primary cells, cells growing in suspension)
the microRNA target is highly expressed
the phenotypic readout that takes place >72 h after transfection (cell differentiation)
regular microRNA inhibitors fail

Note

miRCURY LNA™ microRNA antisense controls are also available.

To find a particular miRCURY LNA™ microRNA Inhibitor, please use the search function below.

Unmatched high and uniform potency

The miRCURY LNA™ microRNA Inhibitors comprise the 2^nd generation of Exiqon’s popular inhibitors. A novel and sophisticated design has been introduced giving both high and uniform potency (by taking advantage of the unprecedented properties of LNA™). In varying the number and positions of LNA™ bases in the inhibitors, the melting temperatures of the oligonucleotides has been normalized to an optimal temperature, while the level of self-complementarity is kept to a minimum. Besides increasing the efficacy of the inhibitors it also make them ideal for multiplexing assays.

These design features means that the inhibitors will have the same high efficacy towards all microRNAs regardless of the GC-content of the targeted microRNA. This is important because the GC-content of microRNAs varies between 5% - 95%. Since the binding affinity of traditional antisense inhibitors (2'-OMe oligonucleotides) is essentially dictated by the GC-content of their microRNA targets, they will typically have poor or no efficacy against AT-rich microRNA. The dramatic effect of intelligently placed LNA™ bases in the inhibitor oligonucleotide sequence to increase and normalize their Tm is shown in Figures 1 & 2.

Get even higher potency with Power inhibitors

The miRCURY LNA™ microRNA Power Inhibitors come with complete phosphorothioate (PS) backbones, which results in higher potency and stability. As seen in Figure 3, the efficacy of these inhibitors is substantially improved compared to our regular inhibitors.

Excellent specificity

Intelligent LNA™-spiking also ensures excellent discrimination between closely related microRNA family members, which means that any biological effects seen with the inhibitors can be safely attributed to the antisense inhibition of the targeted microRNA and not to unspecific binding.

Minimal toxicity and off-target effects

The high potency of both miRCURY LNA™ microRNA Inhibitors and Power Inhibitors means that they can be used at low concentrations minimizing risk of undesired secondary effects unrelated to the antisense activity.

An added benefit of having LNA™ bases distributed throughout the entire length of the oligonucleotide is that the LNA™ inhibitor/mRNA duplexes are not recognized as substrates for RNase H. As a consequence, there will be minimal off-target effects on mRNAs.

As an additional unique attribute, the miRCURY LNA™ microRNA Inhibitors and Power Inhibitors are HPLC purified to reduce potential issues of toxicity.

Figure 1

LNA™ microRNA inhibitors have high, uniform melting temperatures

Exiqon's microRNA inhibitors have high uniform potency. (Click to learn more)

Figure 2 miRCURY LNA™ microRNA Inhibitors have high, uniform melting temperatures

miRCURY LNA™ microRNA Inhibitors have high, uniform melting temperatures

Exiqon's microRNA inhibitors offer higher efficacy than leading competitors. (Click to learn more)

Figure 3
Power inhibitors have even higher potency

Power inhibitors have even higher potency

Power inhibitors offer even higher potency. (Click to learn more)

"...thanks to the LNA™ microRNA inhibitor screen, we have discovered several new miRNAs playing a major role in the regulation of the proliferation/differentiation balance in prostate cells."

Dr. Xavier Gidrol directs the Biomics Laboratory at the Institute of Life Science Research and Technologies in Grenoble, France. They use microfluidics, micromanufacturing and MEMS to study the impact of genetic and micro-environmental determinants on carcinogenesis, at the scale of a few or even single cells. Xavier has used minute cell microarrays to perform high throughput and high content screening with our human library of microRNA inhibitors in primary prostate cancer cells extracted from patients.

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"Previously, we had tried other inhibitor designs but these gave inconclusive results"

Amy Hansen is a Ph.D student at the University College London. She works in the Cancer Research UK Viral Oncology Group lead by Professor Chris Boshoff, Director of the UCL Cancer Institute.

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"LNA microRNA antisense inhibitors are efficient and specific with long lasting effects"

Dr. Annick Harel-Bellan (AHB) is Directeur de Recherche at the Institut Andre Lwoff in Paris. She heads a group working on epigenetics and cancer (Laboratoire Epigenetique et Cancer). Dr. Anna Polesskaya (AP) is a senior scientist and longstanding member of this group

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