esiCRISPR AND esiRNAs –
FLEXIBILITY FOR GENE EDITING
FINALLY, SPECIFIC GENE-
SILENCING IS POSSIBLE!
DIG YOUR WELLS DEEPER –
USE esiCRISPR AND esiRNA!
EUPHORIC ABOUT PHENOTYPES
SUPPORT FOR ALL EUPHERIA
REAGENTS AND KITS
Our mission is to provide our customers with top quality products for RNA interference (RNAi) and targeted genome engineering (CRISPR/Cas9) together with personal scientific support.
We want your research to succeed. Get euphoric about phenotypes!
Our innovation of endoribonuclease-prepared small interfering (si) RNAs – esiRNAs – guarantees silencing of your target with high efficacy and up to 100 times fewer off-targets than chemically synthesized single-sequence or pooled siRNAs. esiRNAs are well-established, cost-effective and simple tools to perform RNAi experiments, from single-gene knockdowns to genome-wide screens.
Use the most efficient and specific silencing triggers available in the market for your silencing experiment!
Browse our RNAi products, which are available individually for single targets or as genome-scale libraries for loss-of-function screens. Upon request, we analyze your target sequence for free with our proprietary algorithm DEQOR to identify the best silencer for you.
See how easy it is to find a silencing trigger for your gene!
The CRISPR/Cas9 system is the state-of-the-art molecular tool for genome engineering in a wide range of organisms. We are proud to introduce the esiCRISPR product line with cutting-edge reagents for your CRISPR/Cas9 experiment:
Make your CRISPR/Cas9 experiment fly with esiCRISPR!
This article shows how esiRNAs can be successfully used in genome-scale RNAi screens.The whole story is openly accessible at nature.com.
The article illustrates that purified Cas9 fusion proteins are versatile and efficient reagents that facilitate advanced genome manipulation.These Cas9 fusion proteins are part of our CRISPR/Cas9 portfolio, learn more! And read the whole story at
Exciting discoveries of novel insect gene functions with Eupheria RNA silencer library!As published in Nature Communications earlier this month, a large-scale RNAi phenotypic screen in the red flour beetle, Tribolium castaneum, revealed exciting new gene discoveries. For this screen called iBeetle, Eupheria provided a library of double-stranded (ds) RNA silencers, targeting […]