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CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Colorimetric
CBA-135
Cell Biolabs 96 assays
Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis.
CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Colorimetric
CBA-135-5
Cell Biolabs 5 x 96 assays
Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis.
CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Fluorometric
CBA-140
Cell Biolabs 96 assays
Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis.
CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Fluorometric
CBA-140-5
Cell Biolabs 5 x 96 assays
Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis.
293AAV Cell Line
AAV-100
Cell Biolabs 1 vial
Description: The 293AAV Cell Line is derived from the parental 293 cells but selected for attributes that increase AAV production, including firmer attachment and larger surface area.
293AD Cell Line
AD-100
Cell Biolabs 1 vial
Description: The 293AD Cell Line is derived from the parental 293 cells but selected for attributes that increase adenovirus production, including firmer attachment and larger surface area.
293LTV Cell Line
LTV-100
Cell Biolabs 1 vial
Description: The 293LTV Cell Line is derived from the parental 293 cells but selected for attributes that increase lentiviral production, including fimrer attachment and larger surface area.
293RTV Cell Line
RV-100
Cell Biolabs 1 vial
Description: The 293RTV Cell Line is derived from the parental 293 cells but selected for attributes that increase retroviral production, including fimrer attachment and larger surface area.
StemTAG Stem Cell Colony Formation Assay (Cell Recovery Compatible)
CBA-325
Cell Biolabs 96 assays
Description:
  • Our StemTAG 96-Well Stem Cell Colony Formation Assay provides a high-throughput method to quantify ES cells in just 7-10 days, and no manual cell counting is required. Once colonies are formed, they may be analyzed in three different ways: 1. Lyse cells, then quantify in a fluorescence plate reader using dye included in the kit
  • 2. Lyse cells, then quantify alkaline phosphatase activity using reagents provided
  • or 3. Recover colonies from matrix for further culture or analysis.
StemTAG Stem Cell Colony Formation Assay (Cell Recovery Compatible)
CBA-325-5
Cell Biolabs 5 x 96 assays
Description:
  • Our StemTAG 96-Well Stem Cell Colony Formation Assay provides a high-throughput method to quantify ES cells in just 7-10 days, and no manual cell counting is required. Once colonies are formed, they may be analyzed in three different ways: 1. Lyse cells, then quantify in a fluorescence plate reader using dye included in the kit
  • 2. Lyse cells, then quantify alkaline phosphatase activity using reagents provided
  • or 3. Recover colonies from matrix for further culture or analysis.

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