AbstractDetermination of a macromolecular structure using x-ray diffraction is a multistep process that involves a plethora of techniques involving molecular biology, bioinformatics, and physical sciences. Counterintuitively, the success of any or all individual steps does not guarantee the success of the overall process. This review examines the difficulties presented by each step on the path from a gene to the final publication, together with certain lucky (or unlucky) circumstances that can affect the velocity along that path
Contribution à un ouvrage.X-ray analysis plays the leading role among the experimental methods of de...
In order to understand the function of a protein on a molecular level, the three-dimensional structu...
This is the accepted manuscript version of the work published in its final form as Blundell, T. L. (...
La diffraction des rayons X est la seule méthode d'utilisation générale qui permette la déterminatio...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
The field of structural biology focuses on determining and studying the structures of macromolecules...
x Ray crystallography is currently the most favoured technique for structure determination of protei...
Nearly all processes in living organisms are governed by proteins. Research questions in (medical) b...
Since the pioneering diffraction experiments led by Max von Laue in 1912, X-ray crystallography has ...
Protein crystallography has become a major technique for understanding cellular processes. This has ...
We describe a data collection method that uses a single crystal to solve X-ray structures by native ...
Besides the crystal preparation, the first and crucial step in the process of protein structure dete...
Protein crystallography has become a major technique for understanding cellular processes. This has ...
The technique of X-ray diffraction is central to our understanding of biomolecular structure at high...
Macromolecular crystallography is the study of macromolecules (proteins and nucleic acids) using X-r...
Contribution à un ouvrage.X-ray analysis plays the leading role among the experimental methods of de...
In order to understand the function of a protein on a molecular level, the three-dimensional structu...
This is the accepted manuscript version of the work published in its final form as Blundell, T. L. (...
La diffraction des rayons X est la seule méthode d'utilisation générale qui permette la déterminatio...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
The field of structural biology focuses on determining and studying the structures of macromolecules...
x Ray crystallography is currently the most favoured technique for structure determination of protei...
Nearly all processes in living organisms are governed by proteins. Research questions in (medical) b...
Since the pioneering diffraction experiments led by Max von Laue in 1912, X-ray crystallography has ...
Protein crystallography has become a major technique for understanding cellular processes. This has ...
We describe a data collection method that uses a single crystal to solve X-ray structures by native ...
Besides the crystal preparation, the first and crucial step in the process of protein structure dete...
Protein crystallography has become a major technique for understanding cellular processes. This has ...
The technique of X-ray diffraction is central to our understanding of biomolecular structure at high...
Macromolecular crystallography is the study of macromolecules (proteins and nucleic acids) using X-r...
Contribution à un ouvrage.X-ray analysis plays the leading role among the experimental methods of de...
In order to understand the function of a protein on a molecular level, the three-dimensional structu...
This is the accepted manuscript version of the work published in its final form as Blundell, T. L. (...