Structural biology, in particular the structure determination of viruses and other large macromolecular complexes lead to data- and compute-intensive problems that require resources well beyond those available on a single system. Thus, there is an imperative need to develop parallel algorithms and programs for clusters and computational grids. We present one of the most challenging computational problems posed by the three-dimensional structure determination of viruses, the orientation refinement
Electron microscopy provides noisy images of viruses that, quantitatively, are projections of the 3-...
The 3D reconstruction of virus structures at high resolution using CryoTEM data requires a very accu...
In this paper we present an improved method for computing the electron density of virus structures; ...
The protein shell of all virus structures resolved to this date exhibit some form of symmetry, most ...
The protein shell of all virus structures resolved to this date exhibit some form of symmetry, most ...
This paper presents an efficient computational method to identify a local symmetry axis in 3-dimensi...
Genetic economy dictates that complex biological structures like viruses exhibit some degree of symm...
Methods for the three-dimensional reconstruction of icosahedral particles, such as spherical viruses...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
Since the seminal work of Caspar and Klug on the structure of the protein containers that encapsulat...
In modem biology, there is an increasing emphasis on the relevance of the structure of a protein or ...
Symmetric organization of biological macromolecules is necessary fi)r certain structural and func- t...
In this paper we present an improved method for computing the electron density of virus structures; ...
Electron microscopy provides noisy images of viruses that, quantitatively, are projections of the 3-...
The 3D reconstruction of virus structures at high resolution using CryoTEM data requires a very accu...
In this paper we present an improved method for computing the electron density of virus structures; ...
The protein shell of all virus structures resolved to this date exhibit some form of symmetry, most ...
The protein shell of all virus structures resolved to this date exhibit some form of symmetry, most ...
This paper presents an efficient computational method to identify a local symmetry axis in 3-dimensi...
Genetic economy dictates that complex biological structures like viruses exhibit some degree of symm...
Methods for the three-dimensional reconstruction of icosahedral particles, such as spherical viruses...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
We present a model-based parallel algorithm for origin and orientation refinement for 3D reconstruct...
Since the seminal work of Caspar and Klug on the structure of the protein containers that encapsulat...
In modem biology, there is an increasing emphasis on the relevance of the structure of a protein or ...
Symmetric organization of biological macromolecules is necessary fi)r certain structural and func- t...
In this paper we present an improved method for computing the electron density of virus structures; ...
Electron microscopy provides noisy images of viruses that, quantitatively, are projections of the 3-...
The 3D reconstruction of virus structures at high resolution using CryoTEM data requires a very accu...
In this paper we present an improved method for computing the electron density of virus structures; ...