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- Overview
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- Cryo-Electron Microscopy
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Export 3552 results:
Author Title Type [ Year
] Filters: First Letter Of Last Name is S [Clear All Filters]
2026
Legorreta EMarquez, Fleishman GM, Hesselink LW, Eddison M, Smeets K, Stringer C, Keller PJ, Narayan S, Chen AB, Mensh BD et al..
2026. Whole-brain co-mapping of gene expression and neuronal activity at cellular resolution in behaving zebrafish. bioRxiv.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Schretter CE.
2025. Aggression across sexes from a contextual- and circuit-based perspective.. Curr Opin Neurobiol. 93:103071.
Shtengel G, Qiu W, Aaron J, Crowe AS, Polilov AA, Karkali K, Bleck CKE, Hess HH.
2025. Alternating angle milling suppresses streaking artifacts in FIB-SEM imaging. 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.
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.
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.
Charvat AF, Mason-Chalmers K, Grabinska-Rogala A, Shivakumar S, Gale-Day Z, Wu T, Millbern Z, Grimm J, Carroll EC, Nilsson P et al..
2025. Aurora 2.0: A fluorogenic dye library for expanding the capability of protein-adaptive Differential Scanning Fluorimetry (paDSF).. SLAS Discov. :100259.
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.
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.
Wang ZAiden, Chen S, Liu Y, Liu D, Svoboda K, Li N, Druckmann S.
2025. Brain-wide analysis reveals movement encoding structured across and within brain areas. Nat Neurosci.
Jacob LPL, Bailes SM, Williams SD, Stringer C, Lewis LD.
2025. Brainwide hemodynamics predict EEG neural rhythms across sleep and wakefulness in humans.. PLoS Comput Biol. 21(9):e1013497.