Towards neural circuit reconstruction with volume electron microscopy techniques.
about
Automated detection and segmentation of synaptic contacts in nearly isotropic serial electron microscopy imagesStructural properties of the Caenorhabditis elegans neuronal networkOme sweet ome: what can the genome tell us about the connectome?A technicolour approach to the connectomeIntrinsic functional connectivity as a tool for human connectomics: theory, properties, and optimizationneuroConstruct: a tool for modeling networks of neurons in 3D spaceProcessing and Analysis of Multichannel Extracellular Neuronal Signals: State-of-the-Art and ChallengesLarge-scale automated histology in the pursuit of connectomesBuilding retinal connectomesA computational framework for ultrastructural mapping of neural circuitryAutomated transmission-mode scanning electron microscopy (tSEM) for large volume analysis at nanoscale resolutionImaging transient blood vessel fusion events in zebrafish by correlative volume electron microscopyDissecting a neuron network: FIB-SEM-based 3D-reconstruction of the visual neuropils in the sea spider Achelia langi (Dohrn, 1881) (Pycnogonida)QSpike tools: a generic framework for parallel batch preprocessing of extracellular neuronal signals recorded by substrate microelectrode arraysInformatics and data mining tools and strategies for the human connectome projectNeuronBank: A Tool for Cataloging Neuronal CircuitryThe volley theory and the spherical cell puzzle.Counting Synapses Using FIB/SEM Microscopy: A True Revolution for Ultrastructural Volume Reconstruction.Three-dimensional spatial distribution of synapses in the neocortex: a dual-beam electron microscopy study.Statistical analysis and data mining of digital reconstructions of dendritic morphologies.Towards native-state imaging in biological context in the electron microscopeSerial block-face imaging and its potential for reconstructing diminutive cell systems: a case study from arthropods.On optical detection of densely labeled synapses in neuropil and mapping connectivity with combinatorially multiplexed fluorescent synaptic markersRetinal connectomics: towards complete, accurate networks.A low fluence Q-switched Nd:YAG laser modifies the 3D structure of melanocyte and ultrastructure of melanosome by subcellular-selective photothermolysis.Challenges and opportunities in mining neuroscience data.Preparation of primary neurons for visualizing neurites in a frozen-hydrated state using cryo-electron tomography.Molecular genetics and imaging technologies for circuit-based neuroanatomy.Spatial Point Pattern Analysis of Neurons Using Ripley's K-Function in 3D.A rapid approach to high-resolution fluorescence imaging in semi-thick brain slices.SEGMENTATION OF MITOCHONDRIA IN ELECTRON MICROSCOPY IMAGES USING ALGEBRAIC CURVES.Microstructural analysis of human white matter architecture using polarized light imaging: views from neuroanatomy.Three-dimensional distribution of cortical synapses: a replicated point pattern-based analysis.Detection of neuron membranes in electron microscopy images using a serial neural network architectureFrom the connectome to the synaptome: an epic love story.Input clustering and the microscale structure of local circuits.The Human Connectome Project: a data acquisition perspective.A Bayesian compressed-sensing approach for reconstructing neural connectivity from subsampled anatomical data.The tasks of amacrine cells.Beyond counts and shapes: studying pathology of dendritic spines in the context of the surrounding neuropil through serial section electron microscopy.
P2860
Q21090988-962B1D71-96EF-4FBE-B3CF-8F4325F91E29Q21092522-EDA56FA6-E7C5-4B3F-8908-F5249C081B18Q24644819-38F05500-48F6-4FC9-8D99-EDA65BA67936Q24645516-75A36615-230B-48BC-B4A5-8DF5A04B0948Q24646179-C446B05C-BEA8-4505-BC3A-71551E83A25FQ24677006-5DE30366-9BD0-4718-9977-5C303187E9D1Q26745572-845BAEB8-3F79-4DCC-82E5-C75951E51A59Q26828928-F576A07C-3736-45F0-BA79-2C6C93F61317Q26830595-18A26050-BB64-4FF7-9CF8-68DE5C5A4862Q27331486-60C5E5EF-BC1E-4E0C-8E0B-3D3EF4ACF7ABQ27333524-D167BF26-441C-4C51-B9F9-41C8B754640DQ27335949-0F519631-80AB-4EDB-8BE1-F03ECBB0BF34Q28655897-AB3D56E7-96B3-4725-9533-DC183E3E5DB7Q28657588-C89DC530-8785-46C3-8750-F0502FE5FF38Q28743073-917E2BF5-079A-4EED-980F-D373192A859BQ28752447-37B6F6B8-5C80-4201-95A8-32729ECE90B6Q30488996-948BE03A-6600-4789-B313-14BAC07E81C2Q30491990-BCE3394A-F952-4067-95E5-57C889C20DECQ30577684-34D241F5-F9DD-48C3-BD83-40BFBCAE2435Q30881798-143CF050-5BD7-47A8-91D2-4DDE2717D321Q30886206-ED39F55F-22B2-4EAE-86A9-9BABFDED9F77Q31151749-E8C4FB81-7C18-41F0-A32C-8BC77224E096Q33526972-166A3EEC-C60C-4333-9E3F-FAE16FFB50B4Q33709694-B388D540-A64C-4423-8EB3-457A149DC97AQ33715243-D3FA1F88-0567-435E-82ED-E34BC2392461Q33817872-D8ED98FA-898F-4DCE-8B37-7D562DDAA69FQ33872339-F89B317C-0A1A-421C-B3C6-2AB090382222Q33908456-2EE3826C-175F-4C99-A7EB-8E8F3DDE2554Q33929936-16E809E6-89AD-40CF-8B56-021EDA169F26Q33992917-B602946E-3058-4024-A209-5624596BC7B5Q34050270-570B7900-2E85-40D8-964B-A7FB4980D6C9Q34081358-6A62DDE1-ED1B-417A-AE16-C483AA1E6231Q34086581-1D93CA30-A83B-4DB1-A2B4-7ADEA79058A1Q34092194-8F5D41C4-6CD6-4D78-976B-F9CD7478EFCAQ34151949-AD6DE3BC-BF28-4F46-8ACD-500E857765ABQ34171287-054FD599-3D15-4FF3-A69D-22F5E6BA6665Q34172421-A180537A-2E04-4E3C-B4F5-B68134702635Q34205578-32DE2CF0-C04F-4C8F-A6B1-6FC3888F187FQ34261183-3D6F9399-4368-4029-BBAA-B315FF2431F4Q34273065-037D5324-219E-4C14-9905-1B76D551A451
P2860
Towards neural circuit reconstruction with volume electron microscopy techniques.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Towards neural circuit reconstruction with volume electron microscopy techniques.
@ast
Towards neural circuit reconstruction with volume electron microscopy techniques.
@en
type
label
Towards neural circuit reconstruction with volume electron microscopy techniques.
@ast
Towards neural circuit reconstruction with volume electron microscopy techniques.
@en
prefLabel
Towards neural circuit reconstruction with volume electron microscopy techniques.
@ast
Towards neural circuit reconstruction with volume electron microscopy techniques.
@en
P1476
Towards neural circuit reconstruction with volume electron microscopy techniques.
@en
P2093
Kevin L Briggman
Winfried Denk
P304
P356
10.1016/J.CONB.2006.08.010
P577
2006-09-08T00:00:00Z