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Single-shot 20-fold expansion microscopy

Nature Methods | 2024

Wang S*, Shin TW*, Yoder HB 2nd, McMillan RB, Su H, Liu Y, Zhang C, Leung KS, Yin P, Kiessling LL**, Boyden ES** (2024) Single-shot 20-fold expansion microscopy, Nature Methods, doi:10.1038/s41592-024-02454-9. Online ahead of print. (*, equal contribution; **, co-corresponding authors)

One-step nanoscale expansion microscopy reveals individual protein shapes

Nature Biotechnology | 2024

Shaib AH, Chouaib AA, Chowdhury R, Altendorf J, Mihaylov D, Zhang C, Krah D, Imani V, Spencer RKW, Georgiev SV, Mougios N, Monga M, Reshetniak S, Mimoso T, Chen H, Fatehbasharzad P, Crzan D, Saal KA, Alawieh MM, Alawar N, Eilts J, Kang J, Soleimani A, Müller M, Pape C, Alvarez L, Trenkwalder C, Mollenhauer B, Outeiro TF, Köster S, Preobraschenski J, Becherer U, Moser T, Boyden ES, Aricescu AR, Sauer M, Opazo F, Rizzoli SO (2024) One-step nanoscale expansion microscopy reveals individual protein shapes, Nature Biotechnology doi:10.1038/s41587-024-02431-9. Online ahead of print.

In Vivo Optical Clearing of Mammalian Brain

bioRxiv | 2024

Giovanni Talei Franzesi*, Ishan Gupta*, Ming Hu, Kiryl Piatkveich, Murat Yildirim, Jian-Ping Zhao, Minho Eom, Seungjae Han, Demian Park, Himashi Andaraarachchi, Zhaohan Li, Jesse Greenhagen, Amirul Muhammad Islam, Parth Vashishtha, Zahid Yaqoob, Nikita Pak, Alexander D. Wissner-Gross, Daniel Martin-Alarcon, Jonathan Veinot, Peter T. So, Uwe Kortshagen, Young-Gyu Yoon, Mriganka Sur**, Edward S. Boyden** (2024) In Vivo Optical Clearing of Mammalian Brain, bioRxiv 2024.09.05.611421; doi: https://doi.org/10.1101/2024.09.05.611421 (*, equal contribution; ** co-senior authors)

Tools for Analyzing, Repairing, and Simulating the Brain

Workshop on Neurotechnology and its Societal and Ethical Implications, Pontifical Academy of Sciences | 2024

Boyden, E.S. (2024) Tools for Analyzing, Repairing, and Simulating the Brain, Neurotechnology and its Societal and Ethical Implications, Workshop at Casina Pio IV, 13-14 December 2023, Pontifical Academy of Sciences, submitted.

Post-transcriptional splicing can occur in a slow-moving zone around the gene

eLife | 2024

Coté A, O'Farrell A, Dardani I, Dunagin M, Coté C, Wan Y, Bayatpour S, Drexler HL, Alexander KA, Chen F, Wassie AT, Patel R, Pham K, Boyden ES, Berger S, Phillips-Cremins J, Churchman LS, Raj A (2024) Post-transcriptional splicing can occur in a slow-moving zone around the gene, eLife 12:RP91357.

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