UC Davis的研究人员开发了CaST,这是一个非侵入性工具,用于跟踪神经元和由迷魂药引发的生物分子,可能有助于治疗脑紊乱。 Researchers at UC Davis developed CaST, a non-invasive tool to track neurons and biomolecules activated by psychedelic drugs, which may help treat brain disorders.
UC Davis的研究人员创建了一种快速的非侵入性工具,即Ca2+活性分裂图尔博ID(CaST),以跟踪大脑中由迷幻药物引发的神经元和生物分子。 Researchers at UC Davis created a rapid, non-invasive tool, Ca2+-activated Split-TurboID (CaST), to track neurons and biomolecules activated by psychedelic drugs in the brain. 这种蛋白质工具使科学家能够研究迷幻剂的细胞机制,如LSD、DMT和psilocybin,这可能有助于治疗抑郁、创伤后应激障碍和药物使用障碍等脑疾病。 This protein-based tool allows scientists to study the cellular mechanisms of psychedelics like LSD, DMT, and psilocybin, which may help treat brain disorders such as depression, PTSD, and substance use disorder. CAST的工作方式是给细胞贴上生物剂标签,使用商业工具可探测,并能够给整个脑细胞贴上标签。 CaST works by tagging cells with biotin, detectable using commercial tools, and enables brain-wide cellular labeling.