Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent CRF2 Cell Line contains CHO-K1 cells stably expressing CRF2 tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent CRF2 Receptor Cell Line allows to assay compounds, or analyze their capability to modulate CRF2 activation and the following redistribution process inside the cells. When a ligand binds to the CRF2 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent CRF2 redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring CRF2 Receptor redistribution process in High Throughput Screening.
Green Fluorescent CT26 Cell Line (aka LINTERNA CT26) has been developed through stable transfection of CT26 cell line with tGFP. This cell line expresses green fluorescent protein gene sequences as free cytoplasmatic proteins. Each vial of cells contains more than 3 million viable cells stably expressing tGFP with G418 resistance gene:
LINTERNA CT26 Cell line is ready to use in cell-based assay applications. This stably transfected clonal cell line provides consistent levels of expression, which helps simplify the interpretation of results. Green Fluorescent CT26 Cell Line also allow to stablish in vitro models for HIgh Throughput and High Content Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent CXCR2 Chemokine Receptor Cell Line contains U2OS cells stably expressing CXCR2 tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent CXCR2 Chemokine Receptor Cell Line allows to assay compounds, or analyze their capability to modulate CXCR2 activation and the following redistribution process inside the cells. When a ligand binds to the CXCR2 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent CXCR2 redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring CXCR2 Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent D1 Dopamine Receptor Cell Line contains SH-SY5Y cells stably expressing DRD1 Receptor tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent D1 Dopamine Receptor Cell Line allows to assay compounds, or analyze their capability to modulate DRD1 Receptor activation and the following redistribution process inside the cells. When a ligand binds to the DRD1 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent D1 Dopamine Receptor redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring DRD1 Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent D3 Dopamine Receptor Cell Line contains SH-SY5Y cells stably expressing DRD3 Receptor tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent D3 Dopamine Receptor Cell Line allows to assay compounds, or analyze their capability to modulate DRD3 Receptor activation and the following redistribution process inside the cells. When a ligand binds to the DRD3 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent D3 Dopamine Receptor redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring DRD3 Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent D5 Dopamine Receptor Cell Line contains SH-SY5Y cells stably expressing DRD5 Receptor tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent D5 Dopamine Receptor Cell Line allows to assay compounds, or analyze their capability to modulate DRD5 Receptor activation and the following redistribution process inside the cells. When a ligand binds to the DRD5 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent D5 Dopamine Receptor redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring DRD5 Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent Delta Opioid Receptor Cell Line contains U2OS cells stably expressing DOR Receptor tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent Delta Opioid Receptor Cell Line allows to assay compounds, or analyze their capability to modulate DOR Receptor activation and the following redistribution process inside the cells. When a ligand binds to the DOR Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent Delta Opioid Receptor redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring DOR Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent FPR2/ALX Formylpeptide Receptor Cell Line contains U2OS cells stably expressing FPR2/ALX tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent FPR2/ALX Formylpeptide Receptor Cell Line allows to assay compounds, or analyze their capability to modulate FPR2/ALX activation and the following redistribution process inside the cells. When a ligand binds to the FPR2/ALX Formylpeptide Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent FPR2/ALX redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring FPR2/ALX Formylpeptide Receptor redistribution process in High Throughput Screening.
Green Fluorescent GPCR cell lines from Innoprot allows to perform GPCR internalization assays. Each vial of Green Fluorescent GLP-2 Receptor Cell Line contains U2OS cells stably expressing GLP2R tagged with tGFP. These Cell lines proliferate in vitro maintaining fluorescent GPCR expression following the cell culture manual.
Innoprot Green Fluorescent GLP-2 Receptor Cell Line allows to assay compounds, or analyze their capability to modulate GLP2R activation and the following redistribution process inside the cells. When a ligand binds to the GLP-2 Receptor, it activates a G protein, which internalizes in big and high intensity vesicles. This cell line has been validated measuring Fluorescent GLP2R redistribution by increase of fluorescence surrounding the nuclei using image analysis algorithms. The high reproducibility of this assay allows monitoring GLP-2 Receptor redistribution process in High Throughput Screening.
Green Fluorescent Human Brain Microvascular Endothelial Cells (TTFLUOR HBMEC) provided by Innoprot are isolated from human healthy brain and transfected with turboGFP. TTFLUOR HBMEC are cryopreserved at secondary culture and delivered frozen. Each vial of TTFLUOR HBMEC contains more than 500.000 viable cells. They are guaranteed to further expand for 10 population doublings following the instructions provided in the technical sheet.
Innoprot also offers optimized medium and reagents for the growth of TTFLUOR HBMEC which are quality tested together and guaranteed to give maximum performance as a global solution for in vitro HBMEC culture.
Green Fluorescent Human Colonic Microvascular Endothelial Cells (TTFLUOR HCoMEC) provided by Innoprot are isolated from human healthy colonic tissue and transfected with turboGFP. TTFLUOR HCoMEC are cryopreserved at secondary culture and delivered frozen. Each vial of TTFLUOR HCoMEC contains more than 500.000 cells. They are guaranteed to further expand for 10 population doublings following the instructions provided in the technical sheet.
Innoprot also offers optimized medium and reagents for the growth of TTFLUOR HCoMEC which are quality tested together and guaranteed to give maximum performance as a global solution for in vitro HCoMEC culture.
Green Fluorescent HEK-293 Cell Line (aka LINTERNA HEK-293) has been developed through stable transfection of HEK-293 cell line with tGFP. This cell line expresses green fluorescent protein gene sequences as free cytoplasmatic proteins. Each vial of cells contains more than 3 million viable cells stably expressing tGFP with G418 resistance gene:
LINTERNA HEK-293 Cell line is ready to use in cell-based assay applications. This stably transfected clonal cell line provides consistent levels of expression, which helps simplify the interpretation of results. Green Fluorescent HEK-293 Cell Line also allow to stablish in vitro models for HIgh Throughput and High Content Screening.
Green Fluorescent HeLa Cell Line (aka LINTERNA HeLa) has been developed through stable transfection of HeLa cell line with tGFP. This cell line expresses green fluorescent protein gene sequences as free cytoplasmatic proteins. Each vial of cells contains more than 3 million viable cells stably expressing tGFP with G418 resistance gene:
LINTERNA HeLa Cell line is ready to use in cell-based assay applications. This stably transfected clonal cell line provides consistent levels of expression, which helps simplify the interpretation of results. Green Fluorescent HeLa Cell Line also allow to stablish in vitro models for HIgh Throughput and High Content Screening.
Green Fluorescent HepG2 Cell Line (aka LINTERNA HepG2) has been developed through stable transfection of HepG2 cell line with tGFP. This cell line expresses green fluorescent protein gene sequences as free cytoplasmatic proteins. Each vial of cells contains more than 3 million viable cells stably expressing tGFP with G418 resistance gene:
LINTERNA HepG2 Cell line is ready to use in cell-based assay applications. This stably transfected clonal cell line provides consistent levels of expression, which helps simplify the interpretation of results. Green Fluorescent HepG2 Cell Line also allow to stablish in vitro models for HIgh Throughput and High Content Screening.
Green Fluorescent HT-29 Cell Line (aka LINTERNA HT-29) has been developed through stable transfection of HT-29 cell line with tGFP. This cell line expresses green fluorescent protein gene sequences as free cytoplasmatic proteins. Each vial of cells contains more than 3 million viable cells stably expressing tGFP with G418 resistance gene:
LINTERNA HT-29 Cell line is ready to use in cell-based assay applications. This stably transfected clonal cell line provides consistent levels of expression, which helps simplify the interpretation of results. Green Fluorescent HT-29 Cell Line also allow to stablish in vitro models for HIgh Throughput and High Content Screening.
Green Fluorescent Human Dermal Fibroblasts (TTFLUOR HDF) provided by Innoprot are isolated from human skin by explants (individual donors) and transfected with turboGFP. TTFLUOR HDF are cryopreserved at passage one and delivered frozen. Each vial of Human Dermal Fibroblasts contains more than 500.000 viable cells. They are guaranteed to further expand for 10 population doublings following the instructions provided in the technical sheet.
Innoprot also offers optimized medium and reagents for the growth of TTFLUOR Human Dermal Fibroblasts which are quality tested together and guaranteed to give maximum performance as a global solution for in vitro HDF culture.
