pHcRed1-Nuc Vector encodes a far-red fluorescent protein HcRed1 fused with three copies of the nuclear localization signal (NLS) of the SV40 T-antigen. The NLS sequences are fused to the 3'-end of HcRed1. HcRed1 was generated by mutagenesis of a non-fluorescent chromoprotein from the reef coral Heteractis crispa. The coding sequence for HcRed1 is human codon-optimized for higher expression in mammalian cells. pHcRed1-Nuc is designed for visualizing the nucleus in living or fixed cells by fluorescence microscopy.
AcGFP1 is ideal for multicolor and fluorescence microscopy applications
AcGFP1 is ideal for multicolor and fluorescence microscopy applications. AcGFP1 and DsRed2 protein fusions were transiently transfected and visualized by fluorescence microscopy. Panel A. pAcGFP1-Mito (mitochondria) and pDsRed2-Nuc (nucleus) in HEK 293 cells. Panel B. pAcGFP1-Golgi (Golgi apparatus) and pDsRed2-Nuc (nucleus) in HEK 293 cells.
Organelles targeted by the subcellular localization vectors
Organelles targeted by the subcellular localization vectors.
Subcellular localization vectors encode fusions of fluorescent proteins with localization signals or subcellular structural proteins, which target the fluorescent protein to a specific organelle or subcellular structure
Subcellular localization vectors encode fusions of fluorescent proteins with localization signals or subcellular structural proteins, which target the fluorescent protein to a specific organelle or subcellular structure. The vectors are available in a variety of organelle- and cytoskeleton-targeted color variants.
pHcRed1-Nuc Vector encodes a far-red fluorescent protein HcRed1 fused with three copies of the nuclear localization signal (NLS) of the SV40 T-antigen. The NLS sequences are fused to the 3'-end of HcRed1. HcRed1 was generated by mutagenesis of a non-fluorescent chromoprotein from the reef coral Heteractis crispa. The coding sequence for HcRed1 is human codon-optimized for higher expression in mammalian cells. pHcRed1-Nuc is designed for visualizing the nucleus in living or fixed cells by fluorescence microscopy.
AcGFP1 is ideal for multicolor and fluorescence microscopy applications
AcGFP1 is ideal for multicolor and fluorescence microscopy applications. AcGFP1 and DsRed2 protein fusions were transiently transfected and visualized by fluorescence microscopy. Panel A. pAcGFP1-Mito (mitochondria) and pDsRed2-Nuc (nucleus) in HEK 293 cells. Panel B. pAcGFP1-Golgi (Golgi apparatus) and pDsRed2-Nuc (nucleus) in HEK 293 cells.
Organelles targeted by the subcellular localization vectors
Organelles targeted by the subcellular localization vectors.
Subcellular localization vectors encode fusions of fluorescent proteins with localization signals or subcellular structural proteins, which target the fluorescent protein to a specific organelle or subcellular structure
Subcellular localization vectors encode fusions of fluorescent proteins with localization signals or subcellular structural proteins, which target the fluorescent protein to a specific organelle or subcellular structure. The vectors are available in a variety of organelle- and cytoskeleton-targeted color variants.