Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /

Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /

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Electron microscopy is frequently portrayed as a discipline that stands alone, separated from molecular biology, light microscopy, physiology, and biochemistry, among other disciplines. It is also presented as a technically demanding discipline operating largely in the sphere of "black boxes" and governed by many absolute laws of procedure. At the introductory level, this portrayal does the discipline and the student a disservice. The instrumentation we use is complex, but ultimately understandable and, more importantly, repairable. The procedures we employ for preparing tissues and cells are not totally understood, but enough information is available to allow investigators to make reasonable choices concerning the best techniques to apply to their parti­ cular problems. There are countless specialized techniques in the field of electron and light microscopy that require the acquisition of specialized knowledge, particularly for interpretation of results (electron tomography and energy dispersive spectroscopy immediately come to mind), but most laboratories possessing the equipment to effect these approaches have specialists to help the casual user. The advent of computer operated electron microscopes has also broadened access to these instruments, allowing users with little technical knowledge about electron microscope design to quickly become operators. This has been a welcome advance, because earlier instru­ ments required a level of knowledge about electron optics and vacuum systems to produce optimal photographs and to avoid "crashing" the instruments that typically made it difficult for beginners.

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Bibliographic Details
Main Authors: Dykstra, Michael J. author., Reuss, Laura E. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US : Imprint: Springer, 2003
Subjects:Life sciences., Veterinary medicine., Microbiology., Microscopy., Life Sciences., Biological Microscopy., Life Sciences, general., Veterinary Medicine.,
Online Access:http://dx.doi.org/10.1007/978-1-4419-9244-4
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id KOHA-OAI-TEST:176839
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Life sciences.
Veterinary medicine.
Microbiology.
Microscopy.
Life Sciences.
Biological Microscopy.
Life Sciences, general.
Veterinary Medicine.
Microbiology.
Life sciences.
Veterinary medicine.
Microbiology.
Microscopy.
Life Sciences.
Biological Microscopy.
Life Sciences, general.
Veterinary Medicine.
Microbiology.
spellingShingle Life sciences.
Veterinary medicine.
Microbiology.
Microscopy.
Life Sciences.
Biological Microscopy.
Life Sciences, general.
Veterinary Medicine.
Microbiology.
Life sciences.
Veterinary medicine.
Microbiology.
Microscopy.
Life Sciences.
Biological Microscopy.
Life Sciences, general.
Veterinary Medicine.
Microbiology.
Dykstra, Michael J. author.
Reuss, Laura E. author.
SpringerLink (Online service)
Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
description Electron microscopy is frequently portrayed as a discipline that stands alone, separated from molecular biology, light microscopy, physiology, and biochemistry, among other disciplines. It is also presented as a technically demanding discipline operating largely in the sphere of "black boxes" and governed by many absolute laws of procedure. At the introductory level, this portrayal does the discipline and the student a disservice. The instrumentation we use is complex, but ultimately understandable and, more importantly, repairable. The procedures we employ for preparing tissues and cells are not totally understood, but enough information is available to allow investigators to make reasonable choices concerning the best techniques to apply to their parti­ cular problems. There are countless specialized techniques in the field of electron and light microscopy that require the acquisition of specialized knowledge, particularly for interpretation of results (electron tomography and energy dispersive spectroscopy immediately come to mind), but most laboratories possessing the equipment to effect these approaches have specialists to help the casual user. The advent of computer operated electron microscopes has also broadened access to these instruments, allowing users with little technical knowledge about electron microscope design to quickly become operators. This has been a welcome advance, because earlier instru­ ments required a level of knowledge about electron optics and vacuum systems to produce optimal photographs and to avoid "crashing" the instruments that typically made it difficult for beginners.
format Texto
topic_facet Life sciences.
Veterinary medicine.
Microbiology.
Microscopy.
Life Sciences.
Biological Microscopy.
Life Sciences, general.
Veterinary Medicine.
Microbiology.
author Dykstra, Michael J. author.
Reuss, Laura E. author.
SpringerLink (Online service)
author_facet Dykstra, Michael J. author.
Reuss, Laura E. author.
SpringerLink (Online service)
author_sort Dykstra, Michael J. author.
title Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
title_short Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
title_full Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
title_fullStr Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
title_full_unstemmed Biological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting /
title_sort biological electron microscopy [electronic resource] : theory, techniques, and troubleshooting /
publisher Boston, MA : Springer US : Imprint: Springer,
publishDate 2003
url http://dx.doi.org/10.1007/978-1-4419-9244-4
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spelling KOHA-OAI-TEST:1768392018-07-30T22:55:27ZBiological Electron Microscopy [electronic resource] : Theory, Techniques, and Troubleshooting / Dykstra, Michael J. author. Reuss, Laura E. author. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,2003.engElectron microscopy is frequently portrayed as a discipline that stands alone, separated from molecular biology, light microscopy, physiology, and biochemistry, among other disciplines. It is also presented as a technically demanding discipline operating largely in the sphere of "black boxes" and governed by many absolute laws of procedure. At the introductory level, this portrayal does the discipline and the student a disservice. The instrumentation we use is complex, but ultimately understandable and, more importantly, repairable. The procedures we employ for preparing tissues and cells are not totally understood, but enough information is available to allow investigators to make reasonable choices concerning the best techniques to apply to their parti­ cular problems. There are countless specialized techniques in the field of electron and light microscopy that require the acquisition of specialized knowledge, particularly for interpretation of results (electron tomography and energy dispersive spectroscopy immediately come to mind), but most laboratories possessing the equipment to effect these approaches have specialists to help the casual user. The advent of computer operated electron microscopes has also broadened access to these instruments, allowing users with little technical knowledge about electron microscope design to quickly become operators. This has been a welcome advance, because earlier instru­ ments required a level of knowledge about electron optics and vacuum systems to produce optimal photographs and to avoid "crashing" the instruments that typically made it difficult for beginners.1 Specimen Preparation for Electron Microscopy -- 1 Techniques -- 2 Cryotechniques -- 2 Techniques -- 3 Ultramicrotomy -- 3 Techniques -- 4 -- 4 Techniques -- 5 -- 5 Techniques -- 6 -- 6 Techniques -- 7 Support Films -- 7 Techniques -- 8 Replicas, Shadowing, and Negative Staining -- 8 Techniques -- 9 Transmission Electron Microscopy -- 10 Vacuum Systems -- 11 High-Voltage Transmission Electron Microscopes (HVEM) -- 12 Intermediate Voltage Electron Microscopes (IVEM), Electron Tomography, and Single-Particle Electron Microscopy -- 13 Scanning Electron Microscopy -- 13 Techniques -- 14 -- 15 Photography -- 15 Techniques -- 16 Digital Imaging and Telemedicine -- 17 Morphometry and Stereology -- 18 Photomicroscopy -- 18 Techniques -- 19 Laboratory Safety -- 20 General Sources for Information Concerning Microscopy -- 21 -- Appendix A Computing Micrometer Bar Sizes -- Appendix B Calibrating the TEM and the SEM -- I. Transmission Electron Microscope -- II. Scanning Electron Microscope -- Appendix C Materials and Methods Write-Up Suggestions for Standard TEM and SEM Preparations -- I. Materials and Methods for Routine TEM Preparation -- II. Materials and Methods for Routine SEM Preparation.Electron microscopy is frequently portrayed as a discipline that stands alone, separated from molecular biology, light microscopy, physiology, and biochemistry, among other disciplines. It is also presented as a technically demanding discipline operating largely in the sphere of "black boxes" and governed by many absolute laws of procedure. At the introductory level, this portrayal does the discipline and the student a disservice. The instrumentation we use is complex, but ultimately understandable and, more importantly, repairable. The procedures we employ for preparing tissues and cells are not totally understood, but enough information is available to allow investigators to make reasonable choices concerning the best techniques to apply to their parti­ cular problems. There are countless specialized techniques in the field of electron and light microscopy that require the acquisition of specialized knowledge, particularly for interpretation of results (electron tomography and energy dispersive spectroscopy immediately come to mind), but most laboratories possessing the equipment to effect these approaches have specialists to help the casual user. The advent of computer operated electron microscopes has also broadened access to these instruments, allowing users with little technical knowledge about electron microscope design to quickly become operators. This has been a welcome advance, because earlier instru­ ments required a level of knowledge about electron optics and vacuum systems to produce optimal photographs and to avoid "crashing" the instruments that typically made it difficult for beginners.Life sciences.Veterinary medicine.Microbiology.Microscopy.Life Sciences.Biological Microscopy.Life Sciences, general.Veterinary Medicine.Microbiology.Springer eBookshttp://dx.doi.org/10.1007/978-1-4419-9244-4URN:ISBN:9781441992444

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