Add to ORKGFrom 3-D reconstructions of automatically recorded tilt series of ice-embedded macromolecules, several hundred 3-D images of single particles can be extracted. Here we describe correlation-based techniques to align the particles with respect to translation and orientation in 3-D and the calculation of an averaged reconstruction after application of the correct weighting function to the particle projections. Multivariate statistical analysis and classification are applied to the set of three-dimensionally reconstructed particles to investigate interimage variations on the 3-D level. (C) 1997 Academic Press. [References: 24
One of the major methodological challenges in single particle electron microscopy is obtaining initi...
The computational procedures to implement the method described in the companion paper for three-dime...
Because of the significance of electron microscope tomography in the investigation of biological str...
From 3-D reconstructions of automatically recorded tilt series of ice-embedded macromolecules, sever...
Cryo-electron microscopy of single biological particles poses new challenges to digital image proces...
Transmission electron microscopy allows the collection of multiple views of specimens and their comp...
Electron tomography provides opportunities to determine three-dimensional cellular architecture at r...
Electron tomographic studies more and more require the averaging of volumes extracted from one or mo...
Electron tomography is a technique to obtain 3D nanoscale image reconstructions from 2D electron mic...
SummaryCryo-electron microscopy (cryo-EM) is a powerful technique for 3D structure determination of ...
Three-dimensional (3D) reconstruction of a single protein molecule is essential for understanding th...
Electron tomography was originally developed in 1968, and has been primarily applied to determine th...
<div><p>(A) Schematic illustrating the principle of data collection for electron tomography by tilti...
Abstract A single-molecule three-dimensional (3D) structure is essential for understanding the therm...
A single-molecule three-dimensional (3D) structure is essential for understanding the thermal vibrat...
One of the major methodological challenges in single particle electron microscopy is obtaining initi...
The computational procedures to implement the method described in the companion paper for three-dime...
Because of the significance of electron microscope tomography in the investigation of biological str...
From 3-D reconstructions of automatically recorded tilt series of ice-embedded macromolecules, sever...
Cryo-electron microscopy of single biological particles poses new challenges to digital image proces...
Transmission electron microscopy allows the collection of multiple views of specimens and their comp...
Electron tomography provides opportunities to determine three-dimensional cellular architecture at r...
Electron tomographic studies more and more require the averaging of volumes extracted from one or mo...
Electron tomography is a technique to obtain 3D nanoscale image reconstructions from 2D electron mic...
SummaryCryo-electron microscopy (cryo-EM) is a powerful technique for 3D structure determination of ...
Three-dimensional (3D) reconstruction of a single protein molecule is essential for understanding th...
Electron tomography was originally developed in 1968, and has been primarily applied to determine th...
<div><p>(A) Schematic illustrating the principle of data collection for electron tomography by tilti...
Abstract A single-molecule three-dimensional (3D) structure is essential for understanding the therm...
A single-molecule three-dimensional (3D) structure is essential for understanding the thermal vibrat...
One of the major methodological challenges in single particle electron microscopy is obtaining initi...
The computational procedures to implement the method described in the companion paper for three-dime...
Because of the significance of electron microscope tomography in the investigation of biological str...