A new technique for phase determination of X-ray reflections from symmetric structures is presented. This method, involving comparison of intensity data from structures with variable fluid layer thickness and constant fluid electron density, permits computation of phase angles, scaling factors, and origin reflection values independently. Possible sources of error inherent in other methods of phase determination are thereby eliminated. Results of the application of this method to model structures and to myelin data are reported. Advantages of the technique, which tests all possible phase angle combinations in a rapid fashion, are discussed
Membranes fulfill many different functions inside a cell and have consequently been in the focus of ...
We now have substantial X-ray diffraction and electron microscope data from a variety of plasma memb...
Direct determination of crystallographic phases based on probabilistic of sigma 1 and sigma 2 "tripl...
A new technique for phase determination of X-ray reflections from symmetric structures is presented....
A method of determining the phases of X-ray reflections from oriented model membrane systems at low ...
The theory of direct methods of structure analysis in the case of multilayered membrane-type systems...
The phase signs of the five main X-ray reflections from normal frog sciatic nerve have been determin...
An iterative Fourier method is applied to solving and refining the electron density profile projecte...
The present work consists of a new interpretation of the data presented in the article entitled “X-R...
Using a systematic approach for the acceptance of crystallographic phase assignment, based on the ev...
The electron density contrast method has been applied to the membrane system egg lecithin + myelin p...
X-ray and neutron diffraction methods provide some information about the distribution of mass in bio...
The direct determination of the electron density distributions of multilayered specimens with a smal...
Using a method they developed, Stamatoff and Krimm (1976) have phased swelling data from nerve myeli...
Direct analysis of lipid lamellar packing based on the probabilistic estimate of sigma 1- and sigma ...
Membranes fulfill many different functions inside a cell and have consequently been in the focus of ...
We now have substantial X-ray diffraction and electron microscope data from a variety of plasma memb...
Direct determination of crystallographic phases based on probabilistic of sigma 1 and sigma 2 "tripl...
A new technique for phase determination of X-ray reflections from symmetric structures is presented....
A method of determining the phases of X-ray reflections from oriented model membrane systems at low ...
The theory of direct methods of structure analysis in the case of multilayered membrane-type systems...
The phase signs of the five main X-ray reflections from normal frog sciatic nerve have been determin...
An iterative Fourier method is applied to solving and refining the electron density profile projecte...
The present work consists of a new interpretation of the data presented in the article entitled “X-R...
Using a systematic approach for the acceptance of crystallographic phase assignment, based on the ev...
The electron density contrast method has been applied to the membrane system egg lecithin + myelin p...
X-ray and neutron diffraction methods provide some information about the distribution of mass in bio...
The direct determination of the electron density distributions of multilayered specimens with a smal...
Using a method they developed, Stamatoff and Krimm (1976) have phased swelling data from nerve myeli...
Direct analysis of lipid lamellar packing based on the probabilistic estimate of sigma 1- and sigma ...
Membranes fulfill many different functions inside a cell and have consequently been in the focus of ...
We now have substantial X-ray diffraction and electron microscope data from a variety of plasma memb...
Direct determination of crystallographic phases based on probabilistic of sigma 1 and sigma 2 "tripl...