FBXL15 - Human, 4 unique 29mer shRNA constructs in retroviral GFP vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pGFP-V-RS |
FBXL15 - Human, 4 unique 29mer shRNA constructs in retroviral GFP vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pGFP-V-RS |
Fbxl15 - Mouse, 4 unique 29mer shRNA constructs in retroviral GFP vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pGFP-V-RS |
FBXL15 - Human, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
FBXL15 - Human, 4 unique 29mer shRNA constructs in retroviral untagged vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pRS |
Fbxl15 - Mouse, 4 unique 29mer shRNA constructs in retroviral untagged vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pRS |
Fbxl15 - Mouse, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
Fbxl15 - Rat, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
Fbxl15 - Rat, 4 unique 29mer shRNA constructs in retroviral untagged vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pRS |
FBXL15 (Human) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |
Fbxl15 (Mouse) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |
Fbxl15 (Rat) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |