pGreenFire 2.0 HIF-1 Reporter Lentivector & Virus

Study HIF-1 signaling with the pGreenFire 2.0 HIF-1 Reporter (red firefly luciferase & GFP) which is engineered for reliable stable cell line generation.
  • Sort responsive cells with GFP
  • Measure activity with red firefly luciferase
  • Leverage SBI’s highly-regarded lentivectors
  • Create stable signaling pathway reporter cell lines
  • Introduce reporters into difficult-to-transfect cell types, including primary and non-dividing mammalian cell lines

Products

Catalog Number Description Size Price Quantity Add to Cart
TR426PA-P pGreenFire 2.0 HIF-1 reporter plasmid (pGF2-HIF1-rFluc-T2A-GFP-mPGK-Puro) 10 µg $728
- +
TR426VA-P pGreenFire 2.0 HIF-1 reporter virus (pGF2-HIF1-rFluc-T2A-GFP-mPGK-Puro) >2 x 10^6 IFUs $728
- +

Overview

Overview

Monitor signal transduction in real time with our re-engineered pGreenFire 2.0 Lentivectors

SBI has upgraded our popular pGreenFire signaling pathway reporter lentivectors with a design that leads to more reliable generation of stable cell lines. We’ve also swapped in the red firefly luciferase reporter (rFLuc), which opens up the possibility of performing a dual-spectral luciferase assay and delivers greater sensitivity for in vivo applications than conventional luciferase.

With the pGreenFire 2.0 HIF-1 Reporter Lentivector & Virus (pGF2-HIF-1-rFluc-T2A-GFP-mPGK-Puro), the core reporter functionality is similar to the original pGreenFire lentivector—HIF-1 transcriptional response elements (TREs) are placed upstream of a minimal CMV promoter (mCMV) which together drive co-expression of rFLuc and GFP in response to HIF-1 activity. The result is the ability to quantitatively measure HIF-1 activity using both fluorescence and luciferase activity.

What makes our next-gen pGreenFire 2.0 vectors even better than other TRE reporter vectors is the smart design, which adds in a constitutive selection cassette for stable cell line generation while minimizing interference with the upstream TRE. By using a weak/moderate mPGK promoter to drive the antibiotic selection marker (puromycin resistance) and carefully arranging the conditional reporter genes, the selection marker is reliably expressed without compromising conditional expression of rFLuc and GFP.

As with our original pGreenFire1 vectors, all pGreenFire 2.0 lentivectors leverage our reliable lentivector technology and save you time with pre-built signal transduction pathway reporters that come as ready-to-transduce pre-packaged lentivirus and plasmid that can be transfected into the lentivirus producing system of your choice*.

  • Sort responsive cells with GFP
  • Measure activity with red firefly luciferase
  • Leverage SBI’s highly-regarded lentivectors
  • Create stable signaling pathway reporter cell lines
  • Introduce reporters into difficult-to-transfect cell types, including primary and non-dividing mammalian cell lines
pGreenFire 2.0 HIF-1 Reporter Lentivector & Virus *Please note that these vectors only function properly when transduced. Transfection keeps the constitutive RSV promoter intact, leading to nonspecific expression of the reporter genes.

References

How It Works

Supporting Data

Supporting Data

See our pGreenFire 2.0 transcriptional response element reporters in action The pGreenFire 2.0 AP-1 Reporter efficiently and quantitatively reports on AP-1 activity in 293FT cells

Figure 1. The pGreenFire 2.0 HIF-1 Reporter efficiently and quantitatively reports on HIF-1 activity in 1080HT cells. Relative luciferase activity (A) and GFP activity (B) both increase in response to CoCl2, an HIF-1inducer.

FAQs

Resources

Citations

Products

Catalog Number Description Size Price Quantity Add to Cart
TR426PA-P pGreenFire 2.0 HIF-1 reporter plasmid (pGF2-HIF1-rFluc-T2A-GFP-mPGK-Puro) 10 µg $728
- +
TR426VA-P pGreenFire 2.0 HIF-1 reporter virus (pGF2-HIF1-rFluc-T2A-GFP-mPGK-Puro) >2 x 10^6 IFUs $728
- +

Overview

Overview

Monitor signal transduction in real time with our re-engineered pGreenFire 2.0 Lentivectors

SBI has upgraded our popular pGreenFire signaling pathway reporter lentivectors with a design that leads to more reliable generation of stable cell lines. We’ve also swapped in the red firefly luciferase reporter (rFLuc), which opens up the possibility of performing a dual-spectral luciferase assay and delivers greater sensitivity for in vivo applications than conventional luciferase.

With the pGreenFire 2.0 HIF-1 Reporter Lentivector & Virus (pGF2-HIF-1-rFluc-T2A-GFP-mPGK-Puro), the core reporter functionality is similar to the original pGreenFire lentivector—HIF-1 transcriptional response elements (TREs) are placed upstream of a minimal CMV promoter (mCMV) which together drive co-expression of rFLuc and GFP in response to HIF-1 activity. The result is the ability to quantitatively measure HIF-1 activity using both fluorescence and luciferase activity.

What makes our next-gen pGreenFire 2.0 vectors even better than other TRE reporter vectors is the smart design, which adds in a constitutive selection cassette for stable cell line generation while minimizing interference with the upstream TRE. By using a weak/moderate mPGK promoter to drive the antibiotic selection marker (puromycin resistance) and carefully arranging the conditional reporter genes, the selection marker is reliably expressed without compromising conditional expression of rFLuc and GFP.

As with our original pGreenFire1 vectors, all pGreenFire 2.0 lentivectors leverage our reliable lentivector technology and save you time with pre-built signal transduction pathway reporters that come as ready-to-transduce pre-packaged lentivirus and plasmid that can be transfected into the lentivirus producing system of your choice*.

  • Sort responsive cells with GFP
  • Measure activity with red firefly luciferase
  • Leverage SBI’s highly-regarded lentivectors
  • Create stable signaling pathway reporter cell lines
  • Introduce reporters into difficult-to-transfect cell types, including primary and non-dividing mammalian cell lines
pGreenFire 2.0 HIF-1 Reporter Lentivector & Virus *Please note that these vectors only function properly when transduced. Transfection keeps the constitutive RSV promoter intact, leading to nonspecific expression of the reporter genes.

References

How It Works

Supporting Data

Supporting Data

See our pGreenFire 2.0 transcriptional response element reporters in action The pGreenFire 2.0 AP-1 Reporter efficiently and quantitatively reports on AP-1 activity in 293FT cells

Figure 1. The pGreenFire 2.0 HIF-1 Reporter efficiently and quantitatively reports on HIF-1 activity in 1080HT cells. Relative luciferase activity (A) and GFP activity (B) both increase in response to CoCl2, an HIF-1inducer.

FAQs

Citations