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High-Throughput Microscopy and Computational/Theoretical Challenges in the Analysis of Neural Circuit Structure Society for Neuroscience 2008 Minisymposium Tuesday, November 18, 2008 Room 207B
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“The goal of neural science is to understand the mind, how we perceive, move, think and remember.” Eric Kandel, James Schwartz, Thomas Jessell, Principles of Neural Science, 4th Ed.
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Santiago Ramón y Cajal Considered a founder of Neuroscience Used Golgi staining to study the structure of the central nervous system Sotelo, C. Nature Reviews Neuroscience 4, 7-77, 2003
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We know a great deal about how neurons communicate at the level of the individual cell and synapse http://morbidanatomy.blogspot.com/2008/0/santiago -ramn-y-cajal-1852-934.html ** **http://www.learner.org/courses/biology/ units/neuro/images.html
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Cholinergic synaptic vesicle Kandel et al., Principles of Neural Science, 4th Ed.
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We know much less about what happens at the network level Sotelo, C. Nature Reviews Neuroscience 4, 7-77, 2003 http://www.learner.org/courses/biology/ http://www.learner.org/courses/biology/ units/neuro/images.html
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http://www.learner.org/courses/biology/http://www.learner.org/courses/biology/ units/neuro/images.html http://www.mbl.org/atlas170/atlas http://www.mbl.org/atlas170/atlas 170_start.html
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This minisymposium will survey the latest advances in high-throughput microscopy methods with the goal of advancing our understanding of brain networks. Imaging and analysis of neuronal microcircuits on the scale of whole small animal brains will be presented. Pertinent computational issues will be discussed.
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SpeakersSpeakers Louise C. Abbott, Texas A&M University Louise C. Abbott, Texas A&M University Knife-edge scanning microscope (KESM) Kristina D. Micheva, Stanford University Kristina D. Micheva, Stanford University Array tomography to probe molecular architecture of neural circuits Kenneth Hayworth, University of Southern California Kenneth Hayworth, University of Southern California Use of SEM imaging to create ultrathin section libraries Randal A. Koene, Boston University Randal A. Koene, Boston University NETMORPH and automated network reconstruction Ravi Rao, IBM TJ Watson Research Center, NY Ravi Rao, IBM TJ Watson Research Center, NY High-performance computing techniques for neuro-image analysis Yoonsuck Choe, Texas A&M University Yoonsuck Choe, Texas A&M University Fast algorithms for reconstructing cortical neural circuits Louise C. Abbott, Texas A&M University Louise C. Abbott, Texas A&M University Knife-edge scanning microscope (KESM) Kristina D. Micheva, Stanford University Kristina D. Micheva, Stanford University Array tomography to probe molecular architecture of neural circuits Kenneth Hayworth, University of Southern California Kenneth Hayworth, University of Southern California Use of SEM imaging to create ultrathin section libraries Randal A. Koene, Boston University Randal A. Koene, Boston University NETMORPH and automated network reconstruction Ravi Rao, IBM TJ Watson Research Center, NY Ravi Rao, IBM TJ Watson Research Center, NY High-performance computing techniques for neuro-image analysis Yoonsuck Choe, Texas A&M University Yoonsuck Choe, Texas A&M University Fast algorithms for reconstructing cortical neural circuits
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Louise C. Abbott, Texas A&M University Knife-edge scanning microscope (KESM) Kristina D. Micheva, Stanford University Array tomography to probe molecular architecture of neural circuits Kenneth Hayworth, University of Southern California Use of SEM imaging to create ultrathin section libraries Randal A. Koene, Boston University NETMORPH and automated network reconstruction Ravi Rao, Ravi Rao, IBM TJ Watson Research Center, NY High-performance computing techniques for neuro-image analysis Yoonsuck Choe, Texas A&M University Fast algorithms for reconstructing cortical neural circuits SPEAKERS
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