Divergent excitation two photon microscopy for 3D random access mesoscale imaging at single cell resolution
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Filip Janiak | Philipp Bartel | Michael R. Bale | Takeshi Yoshimatsu | Emilia Komulainen | Mingyi Zhou | Kevin Staras | Lucia L Prieto-Godino | Thomas Euler | Miguel Maravall | Tom Baden | K. Staras | Thomas Euler | M. Maravall | T. Baden | M. Bale | L. Prieto-Godino | Mingyi Zhou | F. Janiak | T. Yoshimatsu | E. Komulainen | P. Bartel
[1] Adam S. Charles,et al. Volumetric Two-photon Imaging of Neurons Using Stereoscopy (vTwINS) , 2016, Nature Methods.
[2] Benjamin F. Grewe,et al. Fast two-layer two-photon imaging of neuronal cell populations using an electrically tunable lens , 2011, Biomedical optics express.
[3] Alan C. Evans,et al. A three-dimensional MRI atlas of the mouse brain with estimates of the average and variability. , 2005, Cerebral cortex.
[4] Karel Svoboda,et al. ScanImage: Flexible software for operating laser scanning microscopes , 2003, Biomedical engineering online.
[5] M. Wullimann,et al. Neuroanatomy of the Zebrafish Brain: A Topological Atlas , 2019 .
[6] Zeno Lavagnino,et al. Two-photon excitation selective plane illumination microscopy (2PE-SPIM) of highly scattering samples: characterization and application. , 2013, Optics express.
[7] R. Prevedel,et al. Brain-wide 3D imaging of neuronal activity in Caenorhabditis elegans with sculpted light , 2013, Nature Methods.
[8] D. Raible,et al. A targeted gene expression system using the tryptophan repressor in zebrafish shows no silencing in subsequent generations , 2014, Development.
[9] Jan Huisken,et al. Selective plane illumination microscopy techniques in developmental biology , 2009, Development.
[10] W. Denk,et al. Deep tissue two-photon microscopy , 2005, Nature Methods.
[11] Philipp Berens,et al. Zebrafish Differentially Process Color across Visual Space to Match Natural Scenes , 2018, Current Biology.
[12] Stefan R. Pulver,et al. Ultra-sensitive fluorescent proteins for imaging neuronal activity , 2013, Nature.
[13] Daniel A. Dombeck,et al. Calcium transient prevalence across the dendritic arbor predicts place field properties , 2014, Nature.
[14] E. Neher,et al. Highly nonlinear photodamage in two-photon fluorescence microscopy. , 2001, Biophysical journal.
[15] Rafael Yuste,et al. Calcium imaging of neural circuits with extended depth-of-field light-sheet microscopy. , 2016, Optics letters.
[16] Katrin Franke,et al. An arbitrary-spectrum spatial visual stimulator for vision research , 2019, bioRxiv.
[17] Zeev Zalevsky,et al. Space–bandwidth product of optical signals and systems , 1996 .
[18] R. Prevedel,et al. Fast volumetric calcium imaging across multiple cortical layers using sculpted light , 2016, Nature Methods.
[19] Dan Zhu,et al. Evaluation of seven optical clearing methods in mouse brain , 2018, Neurophotonics.
[20] Rafael Yuste,et al. Two-Color Volumetric Imaging of Neuronal Activity of Cortical Columns , 2019, Cell reports.
[21] Philipp J. Keller,et al. Whole-brain functional imaging at cellular resolution using light-sheet microscopy , 2013, Nature Methods.
[22] Miguel Maravall,et al. Learning and recognition of tactile temporal sequences by mice and humans , 2017, bioRxiv.
[23] Melissa Hardy,et al. The Tol2kit: A multisite gateway‐based construction kit for Tol2 transposon transgenesis constructs , 2007, Developmental dynamics : an official publication of the American Association of Anatomists.
[24] K. Svoboda,et al. A large field of view two-photon mesoscope with subcellular resolution for in vivo imaging , 2016, bioRxiv.
[25] Kaspar Podgorski,et al. Brain heating induced by near infrared lasers during multi-photon microscopy , 2016, bioRxiv.
[26] T. Wilson,et al. Scanning two photon fluorescence microscopy with extended depth of field , 2006 .
[27] W. Webb,et al. Water-Soluble Quantum Dots for Multiphoton Fluorescence Imaging in Vivo , 2003, Science.
[28] M. Booth,et al. Quasi-simultaneous multiplane calcium imaging of neuronal circuits , 2018, Biomedical optics express.
[29] Tony Wilson,et al. Scanning microscopy with extended depth of focus , 2005, SPIE BiOS.
[30] Philippe Mourrain,et al. Imaging zebrafish neural circuitry from whole brain to synapse , 2013, Front. Neural Circuits.
[31] Robert R. Birge,et al. Two-photon spectroscopy of protein-bound chromophores , 1986 .
[32] Brenda C. Shields,et al. Thy1-GCaMP6 Transgenic Mice for Neuronal Population Imaging In Vivo , 2014, PloS one.
[33] W. Denk,et al. Two-photon laser scanning fluorescence microscopy. , 1990, Science.
[34] Persistent larval sensory neurones are required for the normal development of the adult sensory afferent projections in Drosophila. , 2002, Development.
[35] K. Svoboda,et al. Principles of Two-Photon Excitation Microscopy and Its Applications to Neuroscience , 2006, Neuron.
[36] Daniel C Côté,et al. Designing a large field-of-view two-photon microscope using optical invariant analysis , 2018, Neurophotonics.
[37] Huibert D Mansvelder,et al. Optimal lens design and use in laser-scanning microscopy. , 2014, Biomedical optics express.
[38] M H Ellisman,et al. Video-rate scanning two-photon excitation fluorescence microscopy and ratio imaging with cameleons. , 1999, Biophysical journal.
[39] Alexander S. Ecker,et al. The temporal structure of the inner retina at a single glance , 2019, Scientific Reports.
[40] R. Frostig. In Vivo Optical Imaging of Brain Function , 2002 .
[41] W. Webb,et al. Nonlinear magic: multiphoton microscopy in the biosciences , 2003, Nature Biotechnology.
[42] Hongkui Zeng,et al. Volumetric Ca2+ Imaging in the Mouse Brain Using Hybrid Multiplexed Sculpted Light Microscopy , 2019, Cell.
[43] Benjamin F. Grewe,et al. High-speed in vivo calcium imaging reveals neuronal network activity with near-millisecond precision , 2010, Nature Methods.
[44] M. Bate,et al. Embryonic Origin of Olfactory Circuitry in Drosophila: Contact and Activity-Mediated Interactions Pattern Connectivity in the Antennal Lobe , 2012, PLoS biology.
[45] Johannes D. Seelig,et al. Video-rate volumetric functional imaging of the brain at synaptic resolution , 2016, Nature Neuroscience.
[46] Maria Goeppert-Mayer. Über Elementarakte mit zwei Quantensprüngen , 1931 .
[47] Jeffrey N. Stirman,et al. Wide field-of-view, multi-region two-photon imaging of neuronal activity in the mammalian brain , 2016, Nature Biotechnology.
[48] Francesco Saverio Pavone,et al. Flexible Multi-Beam Light-Sheet Fluorescence Microscope for Live Imaging Without Striping Artifacts , 2019, Front. Neuroanat..
[49] Emil Wolf,et al. CHAPTER X – INTERFERENCE AND DIFFRACTION WITH PARTIALLY COHERENT LIGHT , 1980 .
[50] G. Patterson,et al. Photobleaching in two-photon excitation microscopy. , 2000, Biophysical journal.
[51] Carlos Portera-Cailliau,et al. Two-photon probes for in vivo multicolor microscopy of the structure and signals of brain cells , 2018, Brain Structure and Function.
[52] Alipasha Vaziri,et al. A Guide to Emerging Technologies for Large-Scale and Whole-Brain Optical Imaging of Neuronal Activity. , 2018, Annual review of neuroscience.
[53] R. Yuste,et al. Simultaneous two-photon imaging and two-photon optogenetics of cortical circuits in three dimensions , 2018, eLife.
[54] Tobias Breuninger,et al. Eyecup scope—optical recordings of light stimulus-evoked fluorescence signals in the retina , 2009, Pflügers Archiv - European Journal of Physiology.
[55] Philipp J. Keller,et al. Light-sheet functional imaging in fictively behaving zebrafish , 2014, Nature Methods.
[56] Hang Yu,et al. Light-Sheet Microscopy in Neuroscience. , 2019, Annual review of neuroscience.
[57] D. Raible,et al. Presynaptic partner selection during retinal circuit reassembly varies with timing of neuronal regeneration in vivo , 2016, Nature Communications.
[58] J. Tiago Gonçalves,et al. Simultaneous 2-photon calcium imaging at different cortical depths in vivo with spatiotemporal multiplexing , 2010, Nature Methods.
[59] T. Glaser,et al. Math5 is required for retinal ganglion cell and optic nerve formation. , 2001, Development.
[60] Max Born,et al. Principles of optics - electromagnetic theory of propagation, interference and diffraction of light (7. ed.) , 1999 .
[61] David Kleinfeld,et al. Ultra-large field-of-view two-photon microscopy. , 2015, Optics express.
[62] Dr. M. F. Wullimann,et al. Neuroanatomy of the Zebrafish Brain , 1996, Birkhäuser Basel.