Virus crystallography can provide atomic resolution structures for intact isometric virus particles and components thereof. The methodology is illustrated by reference to a particularly complex example, the core of the bluetongue virus (700 A)
The study of virus structures has contributed to methodological advances in structural biology that ...
In modem biology, there is an increasing emphasis on the relevance of the structure of a protein or ...
Bluetongue virus (BTV), a representative of the orbivirus genus of the Reoviridae, is considerably l...
Virus crystallography can provide atomic resolution structures for intact isometric virus particles ...
The structure of the core of bluetongue virus has been determined at 3.5 resolution, revealing molec...
The structure of the core particle of bluetongue virus has been determined by X-ray crystallography ...
Core particles of bluetongue virus serotype 1 (South Africa) have been crystallized. The crystals, w...
AbstractCore particles of bluetongue virus serotype 1 (South Africa) have been crystallized. The cry...
The structure of the core of bluetongue virus has been determined to 3,5 Å resolution by x-ray cryst...
Structural descriptions of viral particles are key to our understanding of their assembly mechanisms...
AbstractBackground: Bluetongue virus (BTV), which belongs to the Reoviridae family and orbivirus gen...
Virus 3D atomic structures provide insight into our understanding of viral life cycles and the devel...
For more than 30 years X-ray crystallography has been by far the most powerful approach for determin...
Determining the structure of an icosahedral virus crystal by X-ray diffraction follows very much the...
AbstractThe structure of the bluetongue virus core was recently reported and represents the largest ...
The study of virus structures has contributed to methodological advances in structural biology that ...
In modem biology, there is an increasing emphasis on the relevance of the structure of a protein or ...
Bluetongue virus (BTV), a representative of the orbivirus genus of the Reoviridae, is considerably l...
Virus crystallography can provide atomic resolution structures for intact isometric virus particles ...
The structure of the core of bluetongue virus has been determined at 3.5 resolution, revealing molec...
The structure of the core particle of bluetongue virus has been determined by X-ray crystallography ...
Core particles of bluetongue virus serotype 1 (South Africa) have been crystallized. The crystals, w...
AbstractCore particles of bluetongue virus serotype 1 (South Africa) have been crystallized. The cry...
The structure of the core of bluetongue virus has been determined to 3,5 Å resolution by x-ray cryst...
Structural descriptions of viral particles are key to our understanding of their assembly mechanisms...
AbstractBackground: Bluetongue virus (BTV), which belongs to the Reoviridae family and orbivirus gen...
Virus 3D atomic structures provide insight into our understanding of viral life cycles and the devel...
For more than 30 years X-ray crystallography has been by far the most powerful approach for determin...
Determining the structure of an icosahedral virus crystal by X-ray diffraction follows very much the...
AbstractThe structure of the bluetongue virus core was recently reported and represents the largest ...
The study of virus structures has contributed to methodological advances in structural biology that ...
In modem biology, there is an increasing emphasis on the relevance of the structure of a protein or ...
Bluetongue virus (BTV), a representative of the orbivirus genus of the Reoviridae, is considerably l...