ACS Chemical Neuroscience
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Fiala, T., Sulzer, D., & Sames, D. (2025). Seeing the Spikes: The Future of Targetable Synthetic Voltage Sensors. ACS Chemical Neuroscience. https://doi.org/10.1021/acschemneuro.4c00849
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Boumhaouad, S., Makowicz, E. A., Choi, S., Bouhaddou, N., Balla, J., Taghzouti, K., Sulzer, D., & Mosharov, E. V. (2025). Regulation of Dopamine Release by Tonic Activity Patterns in the Striatal Brain Slice. ACS Chemical Neuroscience. https://doi.org/10.1021/acschemneuro.4c00323
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Tsai, M.-H. M., Chen, L., Baumann, M. H., Canals, M., Javitch, J. A., Lane, J. R., & Shi, L. (2024). In Vitro Functional Profiling of Fentanyl and Nitazene Analogs at the μ-Opioid Receptor Reveals High Efficacy for Gi Protein Signaling. ACS Chemical Neuroscience, 15(4), 854–867. https://doi.org/10.1021/acschemneuro.3c00750
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Duro, M. V. V., Van Valkenburgh, J., Ingles, D. E., Tran, J., Cai, Z., Ebright, B., Wang, S., Kerman, B. E., Galvan, J., Hwang, S. H., Sta Maria, N. S., Zanderigo, F., Croteau, E., Cunnane, S. C., Rapoport, S. I., Louie, S. G., Jacobs, R. E., Yassine, H. N., & Chen, K. (2023). Synthesis and Preclinical Evaluation of 22-[18F]Fluorodocosahexaenoic Acid as a Positron Emission Tomography Probe for Monitoring Brain Docosahexaenoic Acid Uptake Kinetics. ACS Chemical Neuroscience, 14(24), 4409–4418. https://doi.org/10.1021/acschemneuro.3c00681
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Bhoopal, B., Gollapelli, K. K., Damuka, N., Miller, M., Krizan, I., Bansode, A., Register, T., Frye, B. M., Kim, J., Mintz, A., Orr, M., Craft, S., Whitlow, C., Lockhart, S. N., Shively, C. A., & Solingapuram Sai, K. K. (2023). Preliminary PET Imaging of Microtubule-Based PET Radioligand [11C]MPC-6827 in a Nonhuman Primate Model of Alzheimer’s Disease. ACS Chemical Neuroscience, 14(20), 3745–3751. https://doi.org/10.1021/acschemneuro.3c00527
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Ong, H. W., Liang, Y., Richardson, W., Lowry, E. R., Wells, C. I., Chen, X., Silvestre, M., Dempster, K., Silvaroli, J. A., Smith, J. L., Wichterle, H., Pabla, N. S., Ultanir, S. K., Bullock, A. N., Drewry, D. H., & Axtman, A. D. (2023). Discovery of a Potent and Selective CDKL5/GSK3 Chemical Probe That Is Neuroprotective. ACS Chemical Neuroscience, 14(9), 1672–1685. https://doi.org/10.1021/acschemneuro.3c00135
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Bhattarai, P., Turgutalp, B., & Kizil, C. (2022). Zebrafish as an Experimental and Preclinical Model for Alzheimer’s Disease. ACS Chemical Neuroscience, 13(20), 2939–2941. https://doi.org/10.1021/acschemneuro.2c00583
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Fiala, T., Mosharov, E. V., Wang, J., Mendieta, A. M., Choi, S. J., Fialova, E., Hwu, C., Sulzer, D., & Sames, D. (2022). Chemical Targeting of Rhodol Voltage-Sensitive Dyes to Dopaminergic Neurons. ACS Chemical Neuroscience, 13(8), 1251–1262. https://doi.org/10.1021/acschemneuro.1c00862
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Post, M. R., Lee, W.-L., Guo, J., Sames, D., & Sulzer, D. (2021). Development of a Dual Fluorescent and Magnetic Resonance False Neurotransmitter That Reports Accumulation and Release from Dopaminergic Synaptic Vesicles. ACS Chemical Neuroscience, 12(24), 4546–4553. https://doi.org/10.1021/acschemneuro.1c00580
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