X-ray and neutron diffraction methods provide some information about the distribution of mass in biological membranes and lipid-water systems. Scattering density profiles obtained from these systems, however, usually are not directly interpretable in terms of the relative amounts of chemical constituents (e.g., lipid, protein, and water) as a function of position in the membrane. We demonstrate here that the combined use of x-ray and neutron-scattering profiles, together with information on the total amounts of each of the major membrane components, are sufficient to calculate unambiguously the volume fractions of these components at well-defined regions of the lamellar unit. Three cases are considered: a calculated model membrane pair, dip...
In analyzing the low-angle X-ray diffraction patterns recorded from the normal and swollen myelin in...
The X-ray diffraction pattern of myelin of frog sciatic nerve has been investigated, using a Kratky ...
A method of determining the phases of X-ray reflections from oriented model membrane systems at low ...
X-ray and neutron diffraction methods provide some information about the distribution of mass in bio...
The scattering from the model membrane system, egg lecithin + myelin protein (N-2), has been analyze...
Membranes that surround cells and separate their contents fromthe external environment are ubiquitou...
<p>In this chapter I begin with a historical perspective of membrane models, starting in the early t...
Neutron diffraction methods provide information about the distribution of matter in biological and m...
The electron density contrast method has been applied to the membrane system egg lecithin + myelin p...
The water distribution between lipid bilayers is important in understanding the role of the hydratio...
We review recent developments in the rapidly growing field of membrane biophysics, with a focus on t...
We present a new method for the determination of structural parameters in biological membranes. Reco...
We now have substantial X-ray diffraction and electron microscope data from a variety of plasma memb...
The phase signs of the five main X-ray reflections from normal frog sciatic nerve have been determin...
The present work consists of a new interpretation of the data presented in the article entitled “X-R...
In analyzing the low-angle X-ray diffraction patterns recorded from the normal and swollen myelin in...
The X-ray diffraction pattern of myelin of frog sciatic nerve has been investigated, using a Kratky ...
A method of determining the phases of X-ray reflections from oriented model membrane systems at low ...
X-ray and neutron diffraction methods provide some information about the distribution of mass in bio...
The scattering from the model membrane system, egg lecithin + myelin protein (N-2), has been analyze...
Membranes that surround cells and separate their contents fromthe external environment are ubiquitou...
<p>In this chapter I begin with a historical perspective of membrane models, starting in the early t...
Neutron diffraction methods provide information about the distribution of matter in biological and m...
The electron density contrast method has been applied to the membrane system egg lecithin + myelin p...
The water distribution between lipid bilayers is important in understanding the role of the hydratio...
We review recent developments in the rapidly growing field of membrane biophysics, with a focus on t...
We present a new method for the determination of structural parameters in biological membranes. Reco...
We now have substantial X-ray diffraction and electron microscope data from a variety of plasma memb...
The phase signs of the five main X-ray reflections from normal frog sciatic nerve have been determin...
The present work consists of a new interpretation of the data presented in the article entitled “X-R...
In analyzing the low-angle X-ray diffraction patterns recorded from the normal and swollen myelin in...
The X-ray diffraction pattern of myelin of frog sciatic nerve has been investigated, using a Kratky ...
A method of determining the phases of X-ray reflections from oriented model membrane systems at low ...