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- Cryo-Electron Microscopy
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- Integrative Imaging
- Invertebrate Shared Resource
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] H
Branson K, Robie AA, Bender J, Perona P, Dickinson MH.
2009. High-throughput ethomics in large groups of Drosophila.. Nature Methods. 6(6):451-7.
Espinosa Medina I, Garcia-Marques J, Cepko C, Lee T.
2019. High-throughput dense reconstruction of cell lineages.. Open Biology. 9(12):190229.
McRaven C, Tanese D, Zhang L, Yang C-T, Ahrens MB, Emiliani V, Koyama M.
2020. High-throughput cellular-resolution synaptic connectivity mapping in vivo with concurrent two-photon optogenetics and volumetric Ca2+ imaging. bioRxiv.
Swierczek NA, Giles AC, Rankin CH, Kerr RA.
2011. High-throughput behavioral analysis in C. elegans.. Nature Methods. 8(7):592-8.
Croteau-Chonka EC, Clayton MS, Venkatasubramanian L, Harris SN, Jones BMW, Narayan L, Winding M, Masson J-B, Zlatic M, Klein KT.
2022. High-throughput automated methods for classical and operant conditioning of larvae.. eLife. 11
Ohyama T, Jovanic T, Denisov G, Dang TC, Hoffmann D, Kerr RA, Zlatic M.
2013. High-throughput analysis of stimulus-evoked behaviors in Drosophila larva reveals multiple modality-specific escape strategies.. PLoS One. 8(8):e71706.
Taylor PE, Card GM, House J, Dickinson MH, Flagan RC.
2006. High-speed pollen release in the white mulberry tree, Morus alba L.. Sexual Plant Reproduction. 19(1):19-24.
Ji N, Magee JC, Betzig E.
2008. High-speed, low-photodamage nonlinear imaging using passive pulse splitters. (With commentary). Nature Methods. 5(2):197-202.
Ji N, Magee JC, Betzig E.
2008. High-speed, low-photodamage nonlinear imaging using passive pulse splitters.. Nature Methods. 5(2):197-202.
Yamashita T, Zheng F, Finkelstein D, Kellard Z, Carter R, Rosencrance CD, Sugino K, Easton J, Gawad C, Zuo J.
2018. High-resolution transcriptional dissection of in vivo Atoh1-mediated hair cell conversion in mature cochleae identifies Isl1 as a co-reprogramming factor.. PLoS Genetics. 14(7):e1007552.
Nannenga BL, Shi D, Leslie AGW, Gonen T.
2014. High-resolution structure determination by continuous-rotation data collection in MicroED.. Nature Methods. 11(9):927-30.
Thompson CL, Ng L, Menon V, Martinez S, Lee C-K, Glattfelder K, Sunkin SM, Henry A, Lau C, Dang C et al..
2014. A high-resolution spatiotemporal atlas of gene expression of the developing mouse brain.. Neuron. 83(2):309-23.
Orgogozo V, Broman KW, Stern DL.
2006. High-resolution quantitative trait locus mapping reveals sign epistasis controlling ovariole number between two Drosophila species.. Genetics. 173(1):197-205.
Rodriguez JA, Gonen T.
2016. High-resolution macromolecular structure determination by MicroED, a cryo-EM method.. Methods in Enzymology.
Xiao Y, Faucherre A, Pola-Morell L, Heddleston JM, Liu T-L, Chew T-L, Sato F, Sehara-Fujisawa A, Kawakami K, López-Schier H.
2015. High-resolution live imaging reveals axon-glia interactions during peripheral nerve injury and repair in zebrafish.. Disease Models & Mechanisms. 8(6):553-64.
Park J-H, Sun W, Cui M.
2015. High-resolution in vivo imaging of mouse brain through the intact skull.. Proceedings of the National Academy of Sciences of the United States of America. 112(30):9236-41.
Pamula MC, Carlini L, Forth S, Verma P, Suresh S, Legant WR, Khodjakov A, Betzig E, Kapoor TM.
2019. High-resolution imaging reveals how the spindle midzone impacts chromosome movement.. The Journal of Cell Biology. 218(8):2529-44.
Jung J, Grant T, Thomas DR, Diehnelt CW, Grigorieff N, Leemor J-T.
2019. High-resolution cryo-EM structures of outbreak strain human norovirus shells reveal size variations.. Proceedings of the National Academy of Sciences of the United States of America. 116(26):12828-32.
Wolf FW, Rodan AR, Tsai LT-Y, Heberlein U.
2002. High-resolution analysis of ethanol-induced locomotor stimulation in Drosophila.. The Journal of Neuroscience: The Official Journal of the Society for Neuroscience. 22(24):11035-44.
Stringer C, Michaelos M, Tsyboulski D, Lindo SE, Pachitariu M.
2021. High-precision coding in visual cortex.. Cell. 184(10):2767-78.
Viswanathan S, Williams ME, Bloss EB, Stasevich TJ, Speer CM, Nern A, Pfeiffer BD, Hooks BM, Li W-P, English BP et al..
2015. High-performance probes for light and electron microscopy.. Nature Methods. 12(6):568-76.
Dana H, Sun Y, Mohar B, Hulse B, Hasseman JP, Tsegaye G, Tsang A, Wong A, Patel R, Macklin JJ et al..
2018. High-performance GFP-based calcium indicators for imaging activity in neuronal populations and microcompartments.. bioRxiv.
Hario S, Le GNT, Sugimoto H, Takahashi-Yamashiro K, Nishinami S, Toda H, Li S, Marvin JS, Kuroda S, Drobizhev M et al..
2024. High-Performance Genetically Encoded Green Fluorescent Biosensors for Intracellular l-Lactate.. ACS Central Science. 10(2):402-416.
Dana H, Sun Y, Mohar B, Hulse BK, Kerlin AM, Hasseman JP, Tsegaye G, Tsang A, Wong A, Patel R et al..
2019. High-performance calcium sensors for imaging activity in neuronal populations and microcompartments.. Nature Methods. 16(7):649-57.
Yatzeck MM, Lavis LD, Chao T-Y, Chandran SS, Raines RT.
2008. A highly sensitive fluorogenic probe for cytochrome P450 activity in live cells.. Bioorganic & Medicinal Chemistry Letters. 18(22):5864-6.