%0 Generic %1 foller2024optimum %A Föller, Stefanie %A Takors, Ralf %A Regett, Niklas %A Lataster, Levin %A Radziwill, Gerald %D 2024 %K darus ubs_10004 ubs_20005 ubs_30053 ubs_40077 unibibliografie %R 10.18419/darus-4449 %T Optimum Blue Light Exposure: A Means to Increase Cell-Specific Productivity in Chinese Hamster Ovary Cells %X Raw Data for manuscript titled Optimum Blue Light Exposure: A Means to Increase Cell-Specific Productivity in Chinese Hamster Ovary CellsThis dataset was generated from experiments conducted in mini bioreactor cultures to investigate the effects of blue light illumination on mammalian cells. The study demonstrated an increase in cell-specific productivity (csp) of monoclonal antibodies under blue light exposure.The dataset includes:Growth data: Detailed cell growth metrics.Monoclonal antibody titers: Measurements of antibody concentration.Intracellular ROS measurements: Data on reactive oxygen species levels.Cell cycle analysis: Distribution of cells across different phases.QTOF measurements: Proteomic and metabolomic profiling to explore mechanisms behind csp enhancement.All data are presented in tabular format, including means and standard deviations, providing precise numerical values. The dataset is organized by light intensity (W/m²) and light intervals (light/dark cycles) to facilitate analysis of the observed effects.This repository offers a comprehensive resource for further exploration of light-mediated productivity enhancement in bioprocesses.

@misc{foller2024optimum, abstract = {Raw Data for manuscript titled Optimum Blue Light Exposure: A Means to Increase Cell-Specific Productivity in Chinese Hamster Ovary CellsThis dataset was generated from experiments conducted in mini bioreactor cultures to investigate the effects of blue light illumination on mammalian cells. The study demonstrated an increase in cell-specific productivity (csp) of monoclonal antibodies under blue light exposure.The dataset includes:Growth data: Detailed cell growth metrics.Monoclonal antibody titers: Measurements of antibody concentration.Intracellular ROS measurements: Data on reactive oxygen species levels.Cell cycle analysis: Distribution of cells across different phases.QTOF measurements: Proteomic and metabolomic profiling to explore mechanisms behind csp enhancement.All data are presented in tabular format, including means and standard deviations, providing precise numerical values. The dataset is organized by light intensity (W/m²) and light intervals (light/dark cycles) to facilitate analysis of the observed effects.This repository offers a comprehensive resource for further exploration of light-mediated productivity enhancement in bioprocesses. }, added-at = {2024-12-02T15:54:04.000+0100}, affiliation = {Föller, Stefanie/University of Stuttgart, Takors, Ralf/University of Stuttgart, Regett, Niklas/University of Stuttgart, Levin Lataster/Universität Freiburg, Radziwill, Gerald/Universität Freiburg}, author = {Föller, Stefanie and Takors, Ralf and Regett, Niklas and Lataster, Levin and Radziwill, Gerald}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2ae18d377efe871ebf42293b95cd133e0/unibiblio}, doi = {10.18419/darus-4449}, howpublished = {Dataset}, interhash = {9a5d95f20503c924dab461a2c742a0c8}, intrahash = {ae18d377efe871ebf42293b95cd133e0}, keywords = {darus ubs_10004 ubs_20005 ubs_30053 ubs_40077 unibibliografie}, note = {Related to: . doi: 10.1007/s00253-024-13363-4}, orcid-numbers = {Föller, Stefanie/0000-0003-2332-5791, Takors, Ralf/0000-0001-5837-6906, Regett, Niklas/0009-0002-2703-1299, Radziwill, Gerald/0000-0002-8793-154X}, timestamp = {2025-03-11T09:48:26.000+0100}, title = {Optimum Blue Light Exposure: A Means to Increase Cell-Specific Productivity in Chinese Hamster Ovary Cells}, year = 2024 }