Main Menu (Mobile)- Block

Main Menu - Block

Biblio

Export 812 results:
Author Title Type [ Year(Asc)]
Filters: First Letter Of Last Name is Z  [Clear All Filters]
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.
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.
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.
Suarez-Gomez D, Perez-Rosas NC, Miranda-Contreras GI, Colom-Braña SR, Zhang W, Mim MSahir, Tan S, Gazzo D, Tepole ABuganza, Deng Q et al..  2025.  CalciumInsights: An Open-Source, Tissue-Agnostic Graphical Interface for High-Quality Analysis of Calcium Signals. bioRxiv.
Suarez-Gomez D, Perez-Rosas NC, Miranda-Contreras GI, Colom-Braña SR, Zhang W, Mim MSahir, Tan S, Gazzo D, Tepole ABuganza, Deng Q et al..  2025.  CalciumInsights: An Open-Source, Tissue-Agnostic Graphical Interface for High-Quality Analysis of Calcium Signals. bioRxiv.
Faini G, Tuffery M, Saleem A, Zhang L, Du F, Le Bourdelles G, Duroure K, Schreiter ER, Tanese D, Emiliani V et al..  2025.  CHLOK: a chemigenetic multicolor labeling system to visualize neuronal birthdate and circuit integration. Research Square.
Pjanovic V, Zavatone-Veth JA, Masset P, Keemink SW, Nardin M.  2025.  Combining Sampling Methods with Attractor Dynamics in Spiking Models of Head-Direction Systems. bioRxiv.
Reyna-Neyra A, Pandya RD, Lackner EM, Pang S, Li W-P, C. Xu S, Zugates C, Burdyniuk M, Pandya VD, Weisz OA et al..  2025.  Compartmentalization of the Endoplasmic Reticulum in Mouse Kidney Proximal Tubule Epithelial Cells. Physiology. 40:1280.
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.
Pachitariu M, Zhong L, Gracias A, Minisi A, Lopez C, Stringer C.  2025.  A critical initialization for biological neural networks. 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.
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.
Guan Y, Yu Y, Gao SMax, Ding L, Zhao Q, Wang M.  2025.  Cross-Tissue Coordination between SLC Nucleoside Transporters Regulates Reproduction in Caenorhabditis elegans. PLoS Genet.
Uryu K, Zhao X, Shiozaki M, Yu Z.  2025.  Cryo-electron Microscopy of Vitreous Sections (CEMOVIS) Application for Model Organisms. Microscopy and Microanalysis. 31(1(Supp)):ozaf048.484.
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)
Bates AShakeel, Phelps JS, Kim M, Yang HH, Matsliah A, Ajabi Z, Perlman E, Delgado KM, Osman MAbdal Moni, Salmon CK et al..  2025.  Distributed control circuits across a brain-and-cord connectome. bioRxiv.
Bates AShakeel, Phelps JS, Kim M, Yang HH, Matsliah A, Ajabi Z, Perlman E, Delgado KM, Osman MAbdal Moni, Salmon CK et al..  2025.  Distributed control circuits across a brain-and-cord connectome. bioRxiv.
Bates AShakeel, Phelps JS, Kim M, Yang HH, Matsliah A, Ajabi Z, Perlman E, Delgado KM, Osman MAbdal Moni, Salmon CK et al..  2025.  Distributed control circuits across a brain-and-cord connectome. 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.
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.