Computational Methods for Three-Dimensional Microscopy Reconstruction

Approaches to the recovery of three-dimensional information on a biological object, which are often formulated or implemented initially in an intuitive way, are concisely described here based on physical models of the object and the image-formation process. Both three-dimensional electron microscopy and X-ray tomography can be captured in the same mathematical framework, leading to closely-related computational approaches, but the methodologies differ in detail and hence pose different challenges. The editors of this volume, Gabor T. Herman and Joachim Frank, are experts in the respective methodologies and present research at the forefront of biological imaging and structural biology.

Computational Methods for Three-Dimensional Microscopy Reconstruction will serve as a useful resource for scholars interested in the development of computational methods for structural biology and cell biology, particularly in the area of 3D imaging and modeling.

Features authors from three expert groups that have made pioneering contributions to this field Provides interdisciplinary content that will appeal to mathematicians and biologists alike Includes mathematically concise statements of image formation and structure recovery problems

Auteur
Joachim Frank, lebt in Prisdorf bei Pinneberg. Er studierte Germanistik, Sport und Pädagogik in Hamburg und arbeitet seit 1980 als Lehrer. Er unternahm viele Reisen auch in außereuropäische Länder, auf denen das Schreiben von Kurzgeschichten begann. Er ist Mitglied im Verband Schriftsteller in Schleswig Holstein und in der Hamburger Autorenvereinigung .

Contenu

1 Introduction.- 2 Interchanging geometry conventions in 3DEM: Mathematical context for the development of standards.- 3 Fully automated particle selection and verification in single-particle cryo-EM.- 4 Quantitative analysis in iterative classification schemes for cryo-EM applications.- 5 High-resolution cryo-EM structure of the Trypanosoma brucei ribosome of a case study.- 6 Computational methods for electron tomography of influenza virus.- 7 Reconstruction from microscopic projections with defocus-gradient and attenuation effects.- 8 Soft X-ray tomography imaging for biological samples.- 9 Using component trees to explore biological structures.