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Microscopy, Polarization. --- Microscopy, Polarized Light --- Polarization Microscopy --- Light Microscopies, Polarized --- Light Microscopy, Polarized --- Microscopies, Polarization --- Microscopies, Polarized Light --- Polarization Microscopies --- Polarized Light Microscopies --- Polarized Light Microscopy --- Optics. Quantum optics --- Microscopy, Polarization

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An explosion of new techniques with vastly improved visualization and sensitivity is leading a veritable revolution in modern neuroanatomy. Basic questions related to cell types, input localization, and connectivity are being re-visited and tackled with significantly more accurate and higher resolution experimental approaches. A major goal of this e-Book is thus to highlight in one place the impressive range of available techniques, even as these are fast becoming routine. This is not meant as a technical review, however, but rather will project the technical explosion as indicative of a field now in a vibrant state of renewal. Thus, contributions will be mainly research articles using the newer techniques. A second goal is to showcase what has become the conspicuous interdisciplinary reach of the field: neuroanatomical standards and the close association of structure-function and underlying circuitry mechanisms are increasingly relevant to investigations in development, physiology, and disease. Another feature of this Research Topic is that it includes a breadth of cross-species contributions from investigators working with rodent, nonhuman primate, and human brains. This is important since most of our current knowledge of brain structure has been obtained from experimental animals. However, recent technical advances, coupled with researcher willingness to use the human tissue available, will undoubtedly lead to major advances in the near future regarding human brain mapping and connectomes. Thus, of particular interest will be the methods that can help to define general wiring principles in the brain, both structural and functional. Overall, the state of the field is: exciting.

Human neuroanatomy --- light-sheet imaging --- two-photon tomography --- FIB/SEM --- fMOST --- synaptic weights --- text-mining --- Polarized light microscopy --- viral vectors --- Human neuroanatomy --- light-sheet imaging --- two-photon tomography --- FIB/SEM --- fMOST --- synaptic weights --- text-mining --- Polarized light microscopy --- viral vectors

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An explosion of new techniques with vastly improved visualization and sensitivity is leading a veritable revolution in modern neuroanatomy. Basic questions related to cell types, input localization, and connectivity are being re-visited and tackled with significantly more accurate and higher resolution experimental approaches. A major goal of this e-Book is thus to highlight in one place the impressive range of available techniques, even as these are fast becoming routine. This is not meant as a technical review, however, but rather will project the technical explosion as indicative of a field now in a vibrant state of renewal. Thus, contributions will be mainly research articles using the newer techniques. A second goal is to showcase what has become the conspicuous interdisciplinary reach of the field: neuroanatomical standards and the close association of structure-function and underlying circuitry mechanisms are increasingly relevant to investigations in development, physiology, and disease. Another feature of this Research Topic is that it includes a breadth of cross-species contributions from investigators working with rodent, nonhuman primate, and human brains. This is important since most of our current knowledge of brain structure has been obtained from experimental animals. However, recent technical advances, coupled with researcher willingness to use the human tissue available, will undoubtedly lead to major advances in the near future regarding human brain mapping and connectomes. Thus, of particular interest will be the methods that can help to define general wiring principles in the brain, both structural and functional. Overall, the state of the field is: exciting.

Human neuroanatomy --- light-sheet imaging --- two-photon tomography --- FIB/SEM --- fMOST --- synaptic weights --- text-mining --- Polarized light microscopy --- viral vectors

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Optics. Quantum optics --- Polarization interferometer --- Polarization interferometers. --- Microscopy, Interference. --- Microscopy, Polarization. --- Optics and Photonics. --- 681.787.8 --- Polarization interferometers --- Interferometers --- Photonics --- Photonics and Optics --- Optical Devices --- Microscopy, Polarized Light --- Polarization Microscopy --- Light Microscopies, Polarized --- Light Microscopy, Polarized --- Microscopies, Polarization --- Microscopies, Polarized Light --- Polarization Microscopies --- Polarized Light Microscopies --- Polarized Light Microscopy --- Microscopy, Differential Interference Contrast --- Microscopy, Interference Reflection --- Microscopy, Nomarski Interference Contrast --- Interferometry, Microscopic --- Microinterferometry --- Interference Microscopy --- Interference Reflection Microscopy --- Microscopic Interferometry --- Reflection Microscopy, Interference --- 681.787.8 Polarization interferometers --- Microscopy, Interference --- Microscopy, Polarization --- Optics and Photonics

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This book collects the publications of Shinya lnoué, pioneering cell biophysicist and winner of the 2003 International Prize for Biology. The articles cover the discovery, and elucidate the behavior in living cells, of the dynamic molecular filaments which organize the cell and play a central role in cell division. Other articles report on the development of microscopes, especially those using polarized light and digital image enhancement, which make possible studies of the ever-changing molecular architecture directly in living cells. This book also contains many high quality photo-micrograph

Cytology. --- Biophysics. --- Polarizing microscopes. --- Polarization microscopes --- Polarized light microscopes --- Polarizing microscope --- Microscopes --- Biological physics --- Biology --- Medical sciences --- Physics --- Cell biology --- Cellular biology --- Cells