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2025
Zocchi D, Nguyen M, Marquez-Legorreta E, Siwanowicz I, Singh C, Prober DA, Hillman EMC, Ahrens MB.  2025.  Days-old zebrafish rapidly learn to recognize threatening agents through noradrenergic and forebrain circuits.. Curr Biol. 35(1):163-176.e4.
Guo M, Wu Y, Hobson CM, Su Y, Qian S, Krueger E, Christensen R, Kroeschell G, Bui J, Chaw M et al..  2025.  Deep learning-based aberration compensation improves contrast and resolution in fluorescence microscopyAbstract. Nature Communications. 16(1)
Guo M, Wu Y, Hobson CM, Su Y, Qian S, Krueger E, Christensen R, Kroeschell G, Bui J, Chaw M et al..  2025.  Deep learning-based aberration compensation improves contrast and resolution in fluorescence microscopyAbstract. Nature Communications. 16(1)
Schneider MC, Johnson C, Allier C, Heinrich L, Adjavon D, Husic J, La Riviere P, Saalfeld S, Shroff H.  2025.  DeepPD: Joint Phase and Object Estimation from Phase Diversity with Neural Calibration of a Deformable Mirror. arXiv.
Schneider MC, Johnson C, Allier C, Heinrich L, Adjavon D, Husic J, La Riviere P, Saalfeld S, Shroff H.  2025.  DeepPD: Joint Phase and Object Estimation from Phase Diversity with Neural Calibration of a Deformable Mirror. arXiv.
Schneider MC, Johnson C, Allier C, Heinrich L, Adjavon D, Husic J, La Riviere P, Saalfeld S, Shroff H.  2025.  DeepPD: Joint Phase and Object Estimation from Phase Diversity with Neural Calibration of a Deformable Mirror. arXiv.
Gandin V, Kim J, Yang L-Z, Lian Y, Kawase T, Hu A, Rokicki K, Fleishman G, Tillberg P, Castrejon AAguilera et al..  2025.  Deep-tissue transcriptomics and subcellular imaging at high spatial resolution. Science.
Mohar B, Michel G, Wang Y-Z, Hernandez V, Grimm JB, Park J-Y, Patel R, Clarke M, Brown TA, Bergmann C et al..  2025.  DELTA: a method for brain-wide measurement of synaptic protein turnover reveals localized plasticity during learning.. Nat Neurosci.
Mohar B, Michel G, Wang Y-Z, Hernandez V, Grimm JB, Park J-Y, Patel R, Clarke M, Brown TA, Bergmann C et al..  2025.  DELTA: a method for brain-wide measurement of synaptic protein turnover reveals localized plasticity during learning.. Nat Neurosci.
Mohar B, Michel G, Wang Y-Z, Hernandez V, Grimm JB, Park J-Y, Patel R, Clarke M, Brown TA, Bergmann C et al..  2025.  DELTA: a method for brain-wide measurement of synaptic protein turnover reveals localized plasticity during learning.. Nat Neurosci.
Castro P.S, Tomasev N., Anand A., Sharma N., Mohanta R., Perlin K., Jain S., Levin K., Éltető N., Dabney W. et al..  2025.  Discovering Symbolic Cognitive Models from Human and Animal Behavior.. bioRxiv.
Castro P.S, Tomasev N., Anand A., Sharma N., Mohanta R., Perlin K., Jain S., Levin K., Éltető N., Dabney W. et al..  2025.  Discovering Symbolic Cognitive Models from Human and Animal Behavior.. bioRxiv.
Moret A, Farrants H, Fan R, Zingg K, Gee CE, Oertner TG, Rangaraju V, Schreiter ER, de Juan-Sanz J.  2025.  An expanded palette of bright and photostable organellar Ca2+ sensors. bioRxiv.
Dalangin R, Jia BZ, Qi Y, Aggarwal A, Sakoi K, Drobizhev M, Molina RS, Patel R, Abdelfattah AS, Zheng J et al..  2025.  Far-red fluorescent genetically encoded calcium ion indicators.. Nat Commun. 16(1):3318.
Dalangin R, Jia BZ, Qi Y, Aggarwal A, Sakoi K, Drobizhev M, Molina RS, Patel R, Abdelfattah AS, Zheng J et al..  2025.  Far-red fluorescent genetically encoded calcium ion indicators.. Nat Commun. 16(1):3318.
Dalangin R, Jia BZ, Qi Y, Aggarwal A, Sakoi K, Drobizhev M, Molina RS, Patel R, Abdelfattah AS, Zheng J et al..  2025.  Far-red fluorescent genetically encoded calcium ion indicators.. Nat Commun. 16(1):3318.
Mi X, Chen ABo-Yuan, Duarte D, Carey E, Taylor CR, Braaker PN, Bright M, Almeida RG, Lim J-X, Ruetten VMS et al..  2025.  Fast, accurate, and versatile data analysis platform for the quantification of molecular spatiotemporal signals.. Cell.
Alshaabi T, Milkie D, Liu G, Shirazinejad C, Hong J, Achour K, Görlitz F, Milunovic-Jevtic A, Simmons C, Abuzahriyeh I et al..  2025.  Fourier-Based 3D Multistage Transformer for Aberration Correction in Multicellular Specimens. Research Square.
Alshaabi T, Milkie D, Liu G, Shirazinejad C, Hong J, Achour K, Görlitz F, Milunovic-Jevtic A, Simmons C, Abuzahriyeh I et al..  2025.  Fourier-Based 3D Multistage Transformer for Aberration Correction in Multicellular Specimens. Research Square.
Alshaabi T, Milkie D, Liu G, Shirazinejad C, Hong J, Achour K, Görlitz F, Milunovic-Jevtic A, Simmons C, Abuzahriyeh I et al..  2025.  Fourier-Based 3D Multistage Transformer for Aberration Correction in Multicellular Specimens. Research Square.
Aggarwal A, Negrean A, Chen Y, Iyer R, Reep D, Liu A, Palutla A, Xie ME, MacLennan BJ, Hagihara KM et al..  2025.  Glutamate indicators with increased sensitivity and tailored deactivation rates. bioRxiv.
Aggarwal A, Negrean A, Chen Y, Iyer R, Reep D, Liu A, Palutla A, Xie ME, MacLennan BJ, Hagihara KM et al..  2025.  Glutamate indicators with increased sensitivity and tailored deactivation rates. bioRxiv.
Podgorski K, Aggarwal A, Negrean A, Chen Y, Iyer R, Reep D, Liu A, Palutla A, Xie M, Maclennan B et al..  2025.  Glutamate indicators with increased sensitivity and tailored deactivation rates. Research Square.
Hou X, Li Y, Hobson CM, Shroff H, Guo M, Liu H.  2025.  HD2Net: A Deep Learning Framework for Simultaneous Denoising and Deaberration in Fluorescence Microscopy. bioRxiv.
Hou X, Li Y, Hobson CM, Shroff H, Guo M, Liu H.  2025.  HD2Net: A Deep Learning Framework for Simultaneous Denoising and Deaberration in Fluorescence Microscopy. bioRxiv.