Check out this microscopy-based, automated 3D interface coculture model developed to screen modulators of antitumor responses. By using the model, a role for #CRAC channels in #CTL responses is revealed. https://t.co/Y4w6Cx5YoR @SlaatsJeroen https://t.co/
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
RT @WSIC_Tuebingen: New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic…
New publication within a collaboration by @BettinaWeigelin @MDAndersonNews @CIR_AACR: Metabolic Screening of #Cytotoxic T-cell Effector Function Reveals the Role of #CRAC Channels in Regulating Lethal Hit Delivery https://t.co/gKRSM7XdX7 https://t.co/xtzUm
Using a microscopy-based, automated 3D interface coculture model 🔬, metabolic screening cytotoxic t-cell effector function by Radboud University (@radboudumc) scientists reveals the role of CRAC channels in regulating lethal hit delivery. https://t.co/Qt7n