Amiloride-sensitive cation channel 3 Products

Description

Chimera RNA interference (chimera RNAi) is process by which small interfering RNA/DNA chimera triggers the destruction of mRNA for the original gene.  The discovery work, design, and application of chimera RNAi has been pioneered by Professor Kaoru Saigo and Dr. Kumiko Ui-Tei at the University of Tokyo.  Chimera RNAi has many advantages over the conventional siRNAs.  First, it has been demonstrated to have reliable knock-down for over 10,000 human genes.  Because the human genome is composed of an intricate, genetic network, chimera RNAi's unique design has successfully obviated the off-target effects including microRNA-based influence.  Another advantage of the chimera RNAi technology is its effectiveness at low concentrations (0.5nM to 5nM); only mRNA is destroyed so genomic genes are not affected.  Finally, having both the sense and anti-sense strands consisting RNA/DNA chimera, it offers much greater compound stability for streamlining in vitro and in vivo assays and applications while minimizing interferon induction and other adverse reactions.

Bioinformatics

Product By Gene ID	9311
Alternate Names	ACCN3 Acid-sensing ion channel 3 Amiloride-sensitive cation channel 3 amiloride-sensitive cation channel 3, testis ASIC3 ASIC3hTNaC1 DRASIC hASIC3 modulatory subunit of ASIC2a Neuronal amiloride-sensitive cation channel 3 proton-gated cation channel subunit SLNAC1 Testis sodium channel 1 TNAC1

Research Areas for Amiloride-sensitive cation channel 3

Find related products by research area and learn more about each of the different research areas below.

Neuroscience