Specificity: NELFCD siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFCD 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: NELFB siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFB 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: NELFB siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFB 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: NELFCD siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFE siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFCD 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: NELFE 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: NELFA siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFE siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFE 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: NELFA 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: NELFA siRNA (Mouse) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NELFA 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: NSMF siRNA (Human) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
Specificity: NSMF 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: NSMF siRNA (Rat) is a target-specific 19-23 nt siRNA oligo duplexes designed to knock down gene expression. Purity: > 97% Form: Lyophilized
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