AbstractWith the recent demonstration that multiwavelength anomalous dispersion (MAD) can provide accurate experimental phases at high resolution, crystallographers have gained a tool with which to study solvation and flexibility in proteins, and a test-bed for the development of crystallographic methods
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
The multiwavelength anomalous dispersion (MAD) method of protein structure determination is becoming...
The multi-wavelength anomalous diffraction, or MAD, method of determining protein structure is becom...
The marvel of X-ray crystallography is the beauty and precision of the atomic structures deduced fro...
AbstractProteins are dynamic molecules whose function in virtually all biological processes requires...
AbstractProteins are dynamic molecules whose function in virtually all biological processes requires...
long-wavelength crystallography; sulfur single-wavelength anomalous diffraction. A step towards long...
We demonstrate the feasibility of growing crystals of protein in volumes as small as 1 nanoliter, Ad...
Importance of unbiased phases in post genomic era is emphasized. Article describes the classical me...
The short wavelength of X-rays allows us to resolve atoms, but in practise for biological materials ...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
In order to collect crystallographic data rapidly and efficiently from proteins, an offline image pl...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
The multiwavelength anomalous dispersion (MAD) method of protein structure determination is becoming...
The multi-wavelength anomalous diffraction, or MAD, method of determining protein structure is becom...
The marvel of X-ray crystallography is the beauty and precision of the atomic structures deduced fro...
AbstractProteins are dynamic molecules whose function in virtually all biological processes requires...
AbstractProteins are dynamic molecules whose function in virtually all biological processes requires...
long-wavelength crystallography; sulfur single-wavelength anomalous diffraction. A step towards long...
We demonstrate the feasibility of growing crystals of protein in volumes as small as 1 nanoliter, Ad...
Importance of unbiased phases in post genomic era is emphasized. Article describes the classical me...
The short wavelength of X-rays allows us to resolve atoms, but in practise for biological materials ...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
In order to collect crystallographic data rapidly and efficiently from proteins, an offline image pl...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
Macromolecular crystallography (MX) has been a motor for biology for over half a century and this co...
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