Using #fluorescence microscopy, the researchers found that immature #neurons from #BD patients and healthy controls accumulated similar levels of #lithium, but mature neurons from BD had higher levels of Li than mature control: https://t.co/1uKoJur3UP @Ame
RT @Prof_M_Ristow: An interesting method to detect #lithium accumulation in living cells suggests higher concentrations in #neurons derived…
RT @Prof_M_Ristow: An interesting method to detect #lithium accumulation in living cells suggests higher concentrations in #neurons derived…
RT @Prof_M_Ristow: An interesting method to detect #lithium accumulation in living cells suggests higher concentrations in #neurons derived…
An interesting method to detect #lithium accumulation in living cells suggests higher concentrations in #neurons derived from patients with #bipolar disorders. https://t.co/YuauT0bmTJ
RT @ACS_Sensors: A new lithium #imaging method could shine light on #bipolar disorder and its treatment: https://t.co/P2ZVe6X8fe https://t.…
RT @ACSCentSci: A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on resear…
RT @NeuroscienceNew: “DNAzyme-Based Lithium-Selective Imaging Reveals Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neuro…
RT @ACSCentSci: A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on resear…
RT @ACSCentSci: A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on resear…
RT @ACSCentSci: A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on resear…
RT @ACSCentSci: A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on resear…
A chemical tool for guiding Li therapy Check out #FirstRxns https://t.co/da98xwEO8h by Ankona Datta @TIFRScience on research https://t.co/caQVYv40az by by Yi Lu & team @ChemistryUIUC https://t.co/JvB20ytRmO
#ASAP by Yi Lu & team @ChemistryUIUC A highly Li+ selective DNAzyme sensor for live imaging of Li+ at a biomedical relevant concentration range reveals bipolar disorder patient-derived neurons can accumulate more Li+ than healthy neurons can: https://
RT @ACS_Sensors: A new lithium #imaging method could shine light on #bipolar disorder and its treatment: https://t.co/P2ZVe6X8fe https://t.…
A new lithium #imaging method could shine light on #bipolar disorder and its treatment: https://t.co/P2ZVe6X8fe https://t.co/EJ8QLeNHDm
RT @LuLabUT: Check out our exciting work in ACS Central Science about DNAzyme-Based Lithium-Selective Imaging Revealing Higher Lithium Accu…
Check out our most recent paper in @ACSCentSci! New DNAzyme sensor and new insights in Li-neuron interaction in bipolar disorder models. Powerful DNAzyme-based sensor and new weapon for neuronal studies.
RT @LuLabUT: Check out our exciting work in ACS Central Science about DNAzyme-Based Lithium-Selective Imaging Revealing Higher Lithium Accu…
RT @LuLabUT: Check out our exciting work in ACS Central Science about DNAzyme-Based Lithium-Selective Imaging Revealing Higher Lithium Accu…
Check out our exciting work in ACS Central Science about DNAzyme-Based Lithium-Selective Imaging Revealing Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neurons! Great job Claire, Zhenglin, Weijie and others! https://t.co/FtegxPeU82
RT @NeuroscienceNew: “DNAzyme-Based Lithium-Selective Imaging Reveals Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neuro…
RT @NeuroscienceNew: “DNAzyme-Based Lithium-Selective Imaging Reveals Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neuro…
RT @NeuroscienceNew: “DNAzyme-Based Lithium-Selective Imaging Reveals Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neuro…
“DNAzyme-Based Lithium-Selective Imaging Reveals Higher Lithium Accumulation in Bipolar Disorder Patient-Derived Neurons” by Yi Lu et al. ACS Central Science https://t.co/CuXWOmaTZn