Specificity: HM13 siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HM13 shRNA Plasmid (Mouse) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: HM13 siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HM13 shRNA Plasmid (Human) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: VIMP siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: VIMP shRNA Plasmid (Mouse) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: HMSD siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HMSD shRNA Plasmid (Human) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: KIAA0020 siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: ZNF106 siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: ZNF106 shRNA Plasmid (Mouse) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: KIAA0020 shRNA Plasmid (Human) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: HMHA1 siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HMHB1 siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HMHA1 shRNA Plasmid (Mouse) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: HMHB1 shRNA Plasmid (Human) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
Specificity: HMHA1 siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: HMHA1 shRNA Plasmid (Human) contains 3 different target-specific plasmids each encoding 19-23 nt (plus hairpin) shRNAs designed to knock down gene expression. Each plasmid contains a resistance gene for the selection of cells stably expressing shRNA. Form: Lyophilized
We use cookies necessary for the function of our website, to improve your experience, analyse our traffic, and cookies that optimise the performance. To learn more about our cookies, please read our Cookie Notice.