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2024
Hadas R, Rubinstein H, Mittnenzweig M, Mayshar Y, Ben-Yair R, Cheng S, Aguilera-Castrejon A, Reines N, Orenbuch A-H, Lifshitz A et al..  2024.  Temporal BMP4 effects on mouse embryonic and extraembryonic developmentAbstract. Nature. 634(8034):652-661.
Hermundstad AM, Młynarski WF.  2024.  A theory of rapid behavioral inferences under the pressure of time. bioRxiv.
Renganathan B, Moore AS, Yeo W-H, Petruncio A, Ackerman D, Wiegel A, Team CM, H. Pasolli A, C. Xu S, Hess HF et al..  2024.  Transport and Organization of Individual Vimentin Filaments Within Dense Networks Revealed by Single Particle Tracking and 3D FIB-SEM. bioRxiv.
Kivimaki SE, Dempsey S, Tani JM, Camper C, Hicklin IK, Blaby-Haas CE, Brown AM, Melville S.  2024.  Type IV pili-associated secretion of a biofilm matrix protein from Clostridium perfringens that forms intermolecular isopeptide bonds. bioRxiv.
Ye Z, Shelton AM, Shaker JR, Boussard JM, Colonell J, Birman D, Manavi S, Chen S, Windolf C, Hurwitz C et al..  2024.  Ultra-high density electrodes improve detection, yield, and cell type identification in neuronal recordings. bioRxiv.
Ye Z, Shelton AM, Shaker JR, Boussard JM, Colonell J, Birman D, Manavi S, Chen S, Windolf C, Hurwitz C et al..  2024.  Ultra-high density electrodes improve detection, yield, and cell type identification in neuronal recordings. bioRxiv.
Ye Z, Shelton AM, Shaker JR, Boussard JM, Colonell J, Birman D, Manavi S, Chen S, Windolf C, Hurwitz C et al..  2024.  Ultra-high density electrodes improve detection, yield, and cell type identification in neuronal recordings. bioRxiv.
Hao S, Lee YJin, Goldfajn NBenhamou, Flores E, Liang J, Fuehrer H, Demmerle J, Lippincott-Schwartz J, Liu Z, Sukenik S et al..  2024.  YAP condensates are highly organized hubs. iScience. :109927.
2025
Sun Y, Squires JR, Hoffmann A, Zhang Y, Minor A, Singh A, Scholten D, Mao C, Luo Y, Fang D et al..  2025.  Abstract 2420: Deep learning enables automated detection of circulating tumor cell-immune cell interactions with prognostic insights in cancer. Cancer Research. 85:2420-2420.
Squires JR, Sun Y, Hoffmann AD, Zhang Y, Minor AC, Singh A, Scholten D, Ding H, Mao C, Platanias LC et al..  2025.  Abstract B049: Deep Learning Enables Identification of Cell Types and Clusters (iCTC) in Immune Tumor Ecosystems for Prognostic Assessment in Cancer. Clinical Cancer Research. 31:B049-B049.
Januszewski M, Templier T, Hayworth KJeffrey, Peale D, Hess H.  2025.  Accelerating Neuron Reconstruction with PATHFINDER. bioRxiv.
Januszewski M, Templier T, Hayworth KJeffrey, Peale D, Hess H.  2025.  Accelerating Neuron Reconstruction with PATHFINDER. bioRxiv.
Liu H, Squires J, Sun Y, Hoffmann ADaniel, Zhang Y, Platanias LC, Gradishar WJohn, Cristofanilli M, Stringer C.  2025.  Analysis of deep learning for automated recognition of immune cells interacting with CTCs for prognostic assessment in cancer.. Journal of Clinical Oncology. 43:e13028-e13028.
Hillsley A, Stein J, Tillberg PW, Stern DL, Funke J.  2025.  A Bayesian Model to Count the Number of Two-State Emitters in a Diffraction Limited Spot.. Nano Lett.
Desissaire S, Ziemczonok M, Cantat-Moltrecht T, Kuś A, Godefroy G, Hervé L, Paviolo C, Krauze W, Allier C, Mandula O et al..  2025.  Bio-inspired 3D-printed phantom: Encoding cellular heterogeneity for characterization of quantitative phase imaging. Measurement. 247:116765.
Deb D, Both G-J, Bezzam E, Kohli A, Yang S, Chaware A, Allier C, Cai C, Anderberg G, M. Eybposh H et al..  2025.  Chromatix: a differentiable, GPU-accelerated wave-optics library. bioRxiv.
Deb D, Both G-J, Bezzam E, Kohli A, Yang S, Chaware A, Allier C, Cai C, Anderberg G, M. Eybposh H et al..  2025.  Chromatix: a differentiable, GPU-accelerated wave-optics library. bioRxiv.
Deb D, Both G-J, Bezzam E, Kohli A, Yang S, Chaware A, Allier C, Cai C, Anderberg G, M. Eybposh H et al..  2025.  Chromatix: a differentiable, GPU-accelerated wave-optics library. bioRxiv.
Petkova MD, Januszewski M, Blakely T, Herrera KJ, Schuhknecht GFP, Tiller R, Choi J, Schalek RL, Boulanger-Weill J, Peleg A et al..  2025.  A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain. bioRxiv.
Petkova MD, Januszewski M, Blakely T, Herrera KJ, Schuhknecht GFP, Tiller R, Choi J, Schalek RL, Boulanger-Weill J, Peleg A et al..  2025.  A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain. bioRxiv.
Petkova MD, Januszewski M, Blakely T, Herrera KJ, Schuhknecht GFP, Tiller R, Choi J, Schalek RL, Boulanger-Weill J, Peleg A et al..  2025.  A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain. bioRxiv.
Petkova MD, Januszewski M, Blakely T, Herrera KJ, Schuhknecht GFP, Tiller R, Choi J, Schalek RL, Boulanger-Weill J, Peleg A et al..  2025.  A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain. bioRxiv.
Petkova MD, Januszewski M, Blakely T, Herrera KJ, Schuhknecht GFP, Tiller R, Choi J, Schalek RL, Boulanger-Weill J, Peleg A et al..  2025.  A connectomic resource for neural cataloguing and circuit dissection of the larval zebrafish brain. bioRxiv.
Roberts R, Giez C, Dhawan S, Pang S, Randel N, Zhiyuan L, Gong H, Dekens L, DiFrisco J, C Xu S et al..  2025.  Cross-species comparative connectomics reveals the evolution of an olfactory circuit. bioRxiv.
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.