The Invitrogen Vivid Colors Fluorescent Protein Vectors are our next-generation cloning and expression tools featuring Aequoreavictoria-derived fluorescent proteins (FP) for simple, non-invasive detection of recombinant proteins. With Invitrogen Gateway and TOPO cloning vector options, cloning, expression, and viewing has never been so easy!
- Be confident using well-published and trusted FPs derived from Aequorea victoria jellyfish
- See fluorescent reporter proteins in 24 hours
- Use multiple colors for co-visualization applications
- Easily clone into our powerful Gateway and TOPO vectors
Vivid Colors Fluorescent Protein Vectors product guide
Spectral properties of Vivid Colors fluorescent proteins
Expression of the Invitrogen Vivid Colors EmGFP and YFP fusion proteins can be detected by fluorescence microscopy or flow cytometry using standard FITC filter sets. For optimal visibility, it is recommended that you use a filter set optimized for detection within the excitation and emission ranges for each fluorescent protein (see table below).
See excitation and emission profiles for all FPs
Recommended filters | ||||||
---|---|---|---|---|---|---|
Protein | Color | Excitation | Emission | Mutations | Omega | Chroma |
EmGFP | Green | 487 | 509 | S65T, S72A, N149K, M153T, I167T | XF100 | |
YFP | Yellow | 514 | 527 | S65G, S72A, K79R, T203Y | XF1042 | 41028 |
CFP | Cyan | 452 | 505 | K26R, Y66W, N146I, M153T, V163A, N164H | XF114 | 31044 |
BFP | Blue | 308-383 | 440-447 | F64L, Y66H, Y145F, V163A , N198S | XF10 | 31021 |
Cycle 3 GFP | Green | 395478 | 507 | F64L, F100S, M154T, V164A | XF76 | |
Vivid Colors fluorescent protein fusion vectors
These Invitrogen Vivid Colors vectors are for generation of N-terminal or C-terminal fluorescent protein fusions to your gene-of-interest (GOI). Emerald Green (EmGFP) and Yellow (YFP) Fluorescent Protein versions are available. To create a Vivid Colors fusion with protein, you can employ either Gatewayor TOPO cloning technology. InvitrogenGateway Destination Vectors require the use of an entry clone, while the TOPOvectors require only a PCR product of your GOI (Invitrogen TA Cloning). Regardless of the cloning techniques you select, the Invitrogen Ultimate ORF collection is a comprehensive and convenient source of full-length cDNA clones for creating fusion proteins.
- Co-expression of your protein with a Vivid Colors fluorescent protein
Express your protein in its native-protein configuration AND EmGFP from a single vector. The Invitrogen Vivid Colors pcDNA 6.2/ EmGFP-Bsd / V5-DEST vector allows you to rapidly identify transfected cells to look for biological activity conferred by your gene. You’ll need to use a Gateway entry-clone version of your gene to clone into this destination (DEST) vector. The Ultimate ORF collection is a comprehensive and convenient source of full-length entry clones for this purpose. If you already have a clone of your protein, you can amplify it by PCR and clone it with TOPO technology to prepare the entry-clone. - Create your own vectors with other Vivid Colors fluorescent proteins
The pRSET/CFP (cyan) and pRSET/BFP (blue) vectors contain alternative color versions of fluorescent proteins derived from Aequorea victoria. These proteins are commonly used with the YFP and EmGFP for multi-color applications. Configured for bacterial expression and fluorescent protein purification, these vectors can also be used for subcloning to construct customized mammalian expression vectors. - Lentiviral (Vivid Color) emerald GFP control expression vector
To optimize lentiviral packaging and transduction efficiencies and monitor infected cells, you need the Invitrogen Vivid Colors pLenti 6.2/EmGFP-GW Expression Control Vector. This vector allows you to generate high-titer Lentiviral preps that express EmGFP and provides for blasticidin selection. Learn more about viral delivery of mammalian expression vectors.
Other fluorescent protein vectors (Cycle 3 Green Fluorescent Protein)
To express your gene with alternative promoters, or with other selectable markers for stable-cell generation, consider the Invitrogen pTracer vectors series. These vectors express the Cycle 3 Green Fluorescent Protein (Cycle 3 GFP) which has spectral excitation and emission wavelengths identical to wild-type GFP. Although nearly as bright as the Vivid Colors FPs, you’ll need to use the proper filter set to observe the fully-enhanced brightness.
- pTracer/Bsd Expression Vectors
Choose from CMV or EF-1 a promoters for expressing your gene of interest. The Invitrogen pTracer EF vector will allow expression of your protein with carboxy-terminal V-5 and 6xHis epitope tags. The Invitrogen pTracer CMV vector is for expression of your protein without any epitope tags. These Invitrogen pTracer/Bsd Vectors express the blasticidin resistance gene as a fusion product with the Cycle 3 GFP. - pTracer/Zeo Expression Vectors
Choose from SV40, CMV or EF-1 a promoters for expressing your gene of interest. The pTracer EF vector will allow expression of your protein with carboxy-terminal V-5 and 6xHis epitope tags. The Invitrogen pTracer SV40 and CMV vectors are for expression of your protein without any epitope tags. These pTracer/Bsd Vectors express the zeocin resistance gene as a fusion product with the Cycle 3 GFP. - Promoter Characterization
If you’re trying to characterize an unknown promoter, you’ll need a cloning and reporter system to monitor expression efficiencies from your PCR-generated mutants. The Invitrogen pGlow and pBlue TOPO TA Expression Kits provide the convenience of TOPO cloning of your PCR products, and the option to quantify promoter activity with either Cycle 3 GFP (pGlow) or b - galactosidase (pBlue) expression. - GFP (cycle 3) TOPO TA Expression Kits
These vectors are for cloning your PCR-amplified gene of interest to generate a fusion protein with Cycle 3 GFP fused on either the N- or C-termini. With TOPO cloning, only a 5-minute reaction is required to generate a clone. Following verification of orientation, the fusion protein is ready to express. The vector elements for these TOPO cloning vectors include a CMV promoter for high-level expression of your gene of interest and a neomycin resistance marker.
Highly specific anti-GFP antibodies for Vivid Colors Fluorescent Proteins
Highly specific antibodies to Aequorea victoria fluorescent proteins are available, including polyclonal anti-GFP (rabbit serum) and anti-GFP (rabbit IgG fraction), for western blot detection. These antibodies have been tested and are shown to react specifically and strongly to both Vivid Colors EmGFP and YFP. A number of different InvitrogenMolecular Probes anti-GFP antibody conjugates is available, offering you a choice of multiple detection technologies you can employ.
Anti-GFP; Rabbit polyclonal antiserum (A6455)
Anti-GFP; Rabbit polyclonal IgG fraction (A11122)
Anti-GFP; Invitrogen ABfinity recombinant rabbit monoclonal antibody (G10362)
Summary of fluorescent protein vector elements
Gene of Interest | Mammalian | |||||
---|---|---|---|---|---|---|
Description | Reporter | Expr. Format | Cloning | Promoter | Tags | Selection |
Vivid Colors pcDNA 6.2/C-EmGFP-DEST | Emerald GFP | C-terminal FP fusion | Gateway | CMV | bsd | |
Vivid Colors pcDNA 6.2/N-EmGFP-DEST | Emerald GFP | N-terminal FP fusion | Gateway | CMV | N-term.V5 | bsd |
Vivid Colors pcDNA 6.2/C-YFP-DEST | Yellow | C-terminal FP fusion | Gateway | CMV | bsd | |
Vivid Colors pcDNA 6.2/N-YFP-DEST | Yellow | N-terminal FP fusion | Gateway | CMV | N-term.V5 | bsd |
Vivid Colors pcDNA 6.2/EmGFP-Bsd/V5-DEST | Emerald GFP | native | Gateway | CMV | GFP-bsd fusion | |
Vivid Colors pcDNA 6.2/C-EmGFP-GW/TOPO Mam. Expr. Vector | Emerald GFP | C-terminal FP fusion | TOPO | CMV | bsd | |
Vivid Colors pcDNA 6.2/N-EmGFP-GW/TOPO Mam. Expr. Vector | Emerald GFP | N-terminal FP fusion | TOPO | CMV | N-term.V5 | bsd |
Vivid Colors pcDNA 6.2/C-YFP-GW/TOPO Mam. Expr. Vector | Yellow | C-terminal FP fusion | TOPO | CMV | bsd | |
Vivid Colors pcDNA 6.2/N-YFP-GW/TOPO Mam. Expr. Vector | Yellow | N-terminal FP fusion | TOPO | CMV | N-term.V5 | bsd |
NT-GFP Fusion TOPO TA Expression Kit | Cycle 3 GFP | N-terminal FP fusion | TOPO | CMV | G418 | |
CT-GFP Fusion TOPO TA Expression Kit | Cycle 3 GFP | C-terminal FP fusion | TOPO | CMV | G418 | |
pcDNA-DEST47 Gateway Vector | Cycle 3 GFP | C-terminal FP fusion | Gateway | CMV | G418 | |
pcDNA-DEST53 Gateway Vector | Cycle 3 GFP | N-terminal FP fusion | Gateway | CMV | G418 | |
pBlue TOPO TA Expression Kit | beta-gal | n/a | TOPO | any | n/a | neo |
pGlow TOPO TA Expression Kit | Emerald GFP | n/a | TOPO | any | n/a | neo |
pTracer-CMV/Bsd | Cycle 3 GFP | native | R.E. | CMV | GFP-bsd fusion | |
pTracer-CMV/Bsd Kit | Cycle 3 GFP | native | R.E. | CMV | GFP-bsd fusion | |
pTracer-EF/Bsd A, B, & C | Cycle 3 GFP | native + tag | R.E. | EF-1 alpha | C-term.V5, 6xHis | GFP-bsd fusion |
pTracer-EF/Bsd Kit | Cycle 3 GFP | native + tag | R.E. | EF-1 alpha | C-term.V5, 6xHis | GFP-bsd fusion |
pTracer-CMV2 Kit | Cycle 3 GFP | native | R.E. | CMV | GFP-zeo fusion | |
pTracer-CMV2 Vector | Cycle 3 GFP | native | R.E. | CMV | GFP-zeo fusion | |
pTracer-SV40 Kit | Cycle 3 GFP | native | R.E. | SV40 | GFP-zeo fusion | |
pTracer-SV40 Vector | Cycle 3 GFP | native | R.E. | SV40 | GFP-zeo fusion | |
pTracer-EF Kit | Cycle 3 GFP | native + tag | R.E. | EF-1 alpha | C-term.V5, 6xHis | GFP-zeo fusion |
pTracer-EF A, B, & C Vector | Cycle 3 GFP | native + tag | R.E. | EF-1 alpha | C-term.V5, 6xHis | GFP-zeo fusion |
pRSET/CFP | Cyan | (n/a: bacterial expression clone) | 6xHis, Xpress, EK | n/a | ||
pRSET/BFP | Blue | (n/a: bacterial expression clone) | 6xHis, Xpress, EK | n/a | ||
pLenti6.2-GW/EmGFP Expression Control Vector | Emerald GFP | (GFP control only; no cloning site) | CMV | n/a | bsd |