siRNA / miRNA gene silencing Human

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Short hairpin or small hairpin RNA (shRNA) is artificial RNA, which has a hairpin loop structure, and uses inherent microRNA (miRNA) machinery to silence target gene expression. This is called RNA interference (RNAi). These can be delivered via plasmids or viral/bacterial vectors. Challenges in shRNA-mediated gene silencing include 1. Off-target silencing, 2. Packaging shRNA encoding lentivirus, and 3. Stable transduction in cells. RNAi has been designed to have anywhere from 19-27 bs, but the most effective design has 19 bp. In case commercial shRNAs are not available, potential target sites can be chosen within exon, 5’- or 3’ UTR, depending on which splice variants of the gene are desired. One should use the latest algorithms and choose at least two different sequences, targeting different regions, in order to have confidence in overcoming off-target effects. A BLAST search after selecting potential design will eliminate potential off-target sequences. For the second challenge, sequencing the vector using primers for either strand (50-100 bp upstream) is suggested, along with using enzymatic digestion on agarose gel for the vector. Next, once the shRNA-containing vector is packaged in a virus, it is important to check the viral titer before transduction. Finally, using a marker in the lentiviral vector (fluorescent protein or antibiotic resistance), along with qPCR for target gene expression can help in determining the efficacy of transduction and shRNA on its target site.

RNA shRNA gene silencing Human TF‐1 AChE

Short hairpin or small hairpin RNA (shRNA) is artificial RNA, which has a hairpin loop structure, and uses inherent microRNA (miRNA) machinery to silence target gene expression. This is called RNA interference (RNAi). These can be delivered via plasmids or viral/bacterial vectors. Challenges in shRNA-mediated gene silencing include 1. Off-target silencing, 2. Packaging shRNA encoding lentivirus, and 3. Stable transduction in cells. RNAi has been designed to have anywhere from 19-27 bs, but the most effective design has 19 bp. In case commercial shRNAs are not available, potential target sites can be chosen within exon, 5’- or 3’ UTR, depending on which splice variants of the gene are desired. One should use the latest algorithms and choose at least two different sequences, targeting different regions, in order to have confidence in overcoming off-target effects. A BLAST search after selecting potential design will eliminate potential off-target sequences. For the second challenge, sequencing the vector using primers for either strand (50-100 bp upstream) is suggested, along with using enzymatic digestion on agarose gel for the vector. Next, once the shRNA-containing vector is packaged in a virus, it is important to check the viral titer before transduction. Finally, using a marker in the lentiviral vector (fluorescent protein or antibiotic resistance), along with qPCR for target gene expression can help in determining the efficacy of transduction and shRNA on its target site.

RNA shRNA gene silencing Human THP-1 TLR10

Get tips on using Silencer select_FGA siRNA to perform siRNA / miRNA gene silencing Human - HepG2 FGA

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Get tips on using Silencer select_FGB siRNA to perform siRNA / miRNA gene silencing Human - HepG2 FGB

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Get tips on using Silencer select_FGG siRNA to perform siRNA / miRNA gene silencing Human - HepG2 FGG

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Get tips on using siGENOME PCNT siRNA to perform siRNA / miRNA gene silencing Human - HEK293 PCNT

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Get tips on using siGENOME TRIM43 siRNA to perform siRNA / miRNA gene silencing Human - HEK293 TRIM43

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Get tips on using CDK5RAP1 siRNA (h) to perform siRNA / miRNA gene silencing Human - A375 CDK5RAP1

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Get tips on using VEGF siRNA (h) to perform siRNA / miRNA gene silencing Human - HUVEC VEGFA

Products Santa Cruz Biotechnology VEGF siRNA (h)

Get tips on using RCAS1 siRNA (h) to perform siRNA / miRNA gene silencing Human - ES2 RCAS1

Products Santa Cruz Biotechnology RCAS1 siRNA (h)

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