pFC-EF1α-MCS-pA-PGK-RFP-T2A-Puro PhiC31 Donor Vector

Get the advantages of a bidirectional promoter with this PhiC31 Donor Vector that delivers an RFP marker and puromycin selection with your gene-of-interest
  • Non-viral transgene delivery
  • Single-copy integration
  • Preferential integration at active sites
  • Delivery of inserts with no size constraints
  • Easy generation of cell lines

Products

Catalog Number Description Size Price Quantity Add to Cart
FC550A-1 pFC-EF1α-MCS-pA-PGK-RFP-T2A-Puro PhiC31 Donor Vector 10 µg $733
- +

Overview

Overview

One-step, non-viral, single-copy transgenesis

Combine the advantages of the PhiC31 Integrase System with a bidirectional promoter format for your genome engineering projects with the pFC-EF1α-MCS-pA-PGK-RFP-T2A-Puro PhiC31 Donor Vector. Simply co-transfect with the PhiC31 Integrase Expression Plasmid (Cat.# FC200PA-1) and select for integrants using puromycin resistance and imaging for RFP fluorescence. pFC-MCS-pA-EF1α-RFP-T2A-Puro PhiC31 Donor Vector

The bidirectional promoter configuration takes advantage of the natural bidirectional activity of the PGK promoter. In addition to enabling coordinated expression of your gene-of-interest and a marker, this divergent configuration is both stable and resistant to silencing in embryonic stem (ES) cells, trophectoderm stem (TS) cells, and extra embryonic endoderm (XEN) stem cells1.

The PhiC31 Integrase System

Popularly used for gene therapy development and related applications, one of the major advantages of SBI’s PhiC31 system is the tight control over copy number—the majority of clones that undergo integration events have single insertions (Supporting Data, Figure 1), reducing the risks of insertional mutagenesis effects.

Other benefits include:

  • Non-viral transgene delivery
  • Single-copy integration
  • Preferential integration at active sites
  • Delivery of inserts with no size constraints
  • Easy generation of cell lines

When you want non-viral gene delivery, have a large insert, and/or need controlled, single-copy genomic integration, turn to the PhiC31 Integrase System.

References

  1. Golding MC and Mann MR. A bidirectional promoter architecture enhances lentiviral transgenesis in embryonic and extraembryonic stem cells. Gene Ther. 2011 Aug; 18(8):817-26. PMID: 21390068.

References

How It Works

How It Works

One-step transgene delivery with the PhiC31 Integrase System

With the PhiC31 Integrase System, you simply clone your gene-of-interest into the attB Donor Plasmid, and then (Step 1) co-transfect with a PhiC31 Integrase Expression Plasmid. (Inside the cell) The PhiC31 Integrase is transiently expressed, and mediates site-specific recombination between the attB site on the donor plasmid and a pseudo attP site in the genome. (Result) Because pseudo attP sites are typically present in transcriptionally active sites of the genome, your gene-of-interest will likely be integrated into an active region of the genome.

One-step transgene delivery with the PhiC31 Integrase System

Supporting Data

Supporting Data

Streamlined gene delivery with the PhiC31 Integrase System

With the PhiC31 Integrase-based reprogramming system, the majority of clones that undergo integration events have single insertions

Figure 1. With the PhiC31 Integrase System, the majority of clones that undergo integration events have single insertions. Southern blot analysis of genomic DNA from positive clones co-transfected with both the PhiC31 Integrase Expression Plasmid (Cat.# FC200PA-1) and the pCOBLW (CAG-Oct4-Sox2-Klf4-Myc-GFP-SV40-Neo) Mouse Reprogramming PhiC31 Donor Plasmid shows the copy number status for 16 different iPSC lines. With both restriction enzymes used, 14 out of 16 lines show single insertions (88%) demonstrating the tight copy number control possible with the PhiC31 Integrase System.

The PhiC31 Integrase System efficiently introduces a puromycin resistance marker to HEK293 cells

Figure 2. The PhiC31 Integrase System efficiently introduces a puromycin resistance marker to HEK293 cells. The dual promoter PhiC31 Donor Vector pFC-PGK-MCS-EF1-GFP-Puro (Cat.# FC551A-1) was co-transfected into HEK293 cells with either carrier DNA (top plate) or the PhiC31 Integrase Expression Plasmid (bottom plate) and the cells placed under puromycin selection after three days. After an additional eleven days, the cells were fixed and stained with a solution of 50% methanol plus 1% methylene blue to image colonies. Only the cells co-transfected with integrase formed colonies (bottom panel), demonstrating the high efficiency of the PhiC31 Integrase System for transgene delivery.

The PhiC31 Integrase System efficiently introduces a puromycin resistance marker and GFP to HEK293 cells

Figure 3. The PhiC31 Integrase System efficiently introduces a puromycin resistance marker and GFP to HEK293 cells. The dual promoter PhiC31 Donor Vector pFC-PGK-MCS-EF1-GFP-Puro (Cat.# FC551A-1) was co-transfected into HEK293 cells with the PhiC31 Integrase Expression Plasmid (bottom plate), the cells placed under puromycin selection after two days, and cells imaged after another four and eleven days. Comparison of phase versus fluorescence imaging shows that the majority of cells robustly express the GFP reporter.

FAQs

Resources

Citations

Products

Catalog Number Description Size Price Quantity Add to Cart
FC550A-1 pFC-EF1α-MCS-pA-PGK-RFP-T2A-Puro PhiC31 Donor Vector 10 µg $733
- +

Overview

Overview

One-step, non-viral, single-copy transgenesis

Combine the advantages of the PhiC31 Integrase System with a bidirectional promoter format for your genome engineering projects with the pFC-EF1α-MCS-pA-PGK-RFP-T2A-Puro PhiC31 Donor Vector. Simply co-transfect with the PhiC31 Integrase Expression Plasmid (Cat.# FC200PA-1) and select for integrants using puromycin resistance and imaging for RFP fluorescence. pFC-MCS-pA-EF1α-RFP-T2A-Puro PhiC31 Donor Vector

The bidirectional promoter configuration takes advantage of the natural bidirectional activity of the PGK promoter. In addition to enabling coordinated expression of your gene-of-interest and a marker, this divergent configuration is both stable and resistant to silencing in embryonic stem (ES) cells, trophectoderm stem (TS) cells, and extra embryonic endoderm (XEN) stem cells1.

The PhiC31 Integrase System

Popularly used for gene therapy development and related applications, one of the major advantages of SBI’s PhiC31 system is the tight control over copy number—the majority of clones that undergo integration events have single insertions (Supporting Data, Figure 1), reducing the risks of insertional mutagenesis effects.

Other benefits include:

  • Non-viral transgene delivery
  • Single-copy integration
  • Preferential integration at active sites
  • Delivery of inserts with no size constraints
  • Easy generation of cell lines

When you want non-viral gene delivery, have a large insert, and/or need controlled, single-copy genomic integration, turn to the PhiC31 Integrase System.

References

  1. Golding MC and Mann MR. A bidirectional promoter architecture enhances lentiviral transgenesis in embryonic and extraembryonic stem cells. Gene Ther. 2011 Aug; 18(8):817-26. PMID: 21390068.

References

How It Works

How It Works

One-step transgene delivery with the PhiC31 Integrase System

With the PhiC31 Integrase System, you simply clone your gene-of-interest into the attB Donor Plasmid, and then (Step 1) co-transfect with a PhiC31 Integrase Expression Plasmid. (Inside the cell) The PhiC31 Integrase is transiently expressed, and mediates site-specific recombination between the attB site on the donor plasmid and a pseudo attP site in the genome. (Result) Because pseudo attP sites are typically present in transcriptionally active sites of the genome, your gene-of-interest will likely be integrated into an active region of the genome.

One-step transgene delivery with the PhiC31 Integrase System

Supporting Data

Supporting Data

Streamlined gene delivery with the PhiC31 Integrase System

With the PhiC31 Integrase-based reprogramming system, the majority of clones that undergo integration events have single insertions

Figure 1. With the PhiC31 Integrase System, the majority of clones that undergo integration events have single insertions. Southern blot analysis of genomic DNA from positive clones co-transfected with both the PhiC31 Integrase Expression Plasmid (Cat.# FC200PA-1) and the pCOBLW (CAG-Oct4-Sox2-Klf4-Myc-GFP-SV40-Neo) Mouse Reprogramming PhiC31 Donor Plasmid shows the copy number status for 16 different iPSC lines. With both restriction enzymes used, 14 out of 16 lines show single insertions (88%) demonstrating the tight copy number control possible with the PhiC31 Integrase System.

The PhiC31 Integrase System efficiently introduces a puromycin resistance marker to HEK293 cells

Figure 2. The PhiC31 Integrase System efficiently introduces a puromycin resistance marker to HEK293 cells. The dual promoter PhiC31 Donor Vector pFC-PGK-MCS-EF1-GFP-Puro (Cat.# FC551A-1) was co-transfected into HEK293 cells with either carrier DNA (top plate) or the PhiC31 Integrase Expression Plasmid (bottom plate) and the cells placed under puromycin selection after three days. After an additional eleven days, the cells were fixed and stained with a solution of 50% methanol plus 1% methylene blue to image colonies. Only the cells co-transfected with integrase formed colonies (bottom panel), demonstrating the high efficiency of the PhiC31 Integrase System for transgene delivery.

The PhiC31 Integrase System efficiently introduces a puromycin resistance marker and GFP to HEK293 cells

Figure 3. The PhiC31 Integrase System efficiently introduces a puromycin resistance marker and GFP to HEK293 cells. The dual promoter PhiC31 Donor Vector pFC-PGK-MCS-EF1-GFP-Puro (Cat.# FC551A-1) was co-transfected into HEK293 cells with the PhiC31 Integrase Expression Plasmid (bottom plate), the cells placed under puromycin selection after two days, and cells imaged after another four and eleven days. Comparison of phase versus fluorescence imaging shows that the majority of cells robustly express the GFP reporter.

FAQs

Citations