Add to ORKGIncreased iron concentration in tissues appears to be a factor in the genesis and development of inflammatory and degenerative diseases. By means of real-time small angle x-ray scattering measurements, we studied the kinetics of iron release from the ferritin inorganic core as a function of time and distance from the iron core centre. Accordingly, the iron release process follows a three step model: (i) a defect nucleation in the outer part of the mineral core, (ii) the diffusion of the reducing agent towards the inner part of the core, and (iii) the erosion of the core from the inner to the outer part
a. Mineralization rate over time as a function of iron APC. a series of simulations were run for whi...
The excessively high and inconsistent literature values for Km,Fe and Km,O2 prompted us to examine t...
Ferritins are highly conserved supramolecular protein nanostructures composed of two different subun...
Increased iron concentration in tissues appears to be a factor in the genesis and development of inf...
Ferritin is the solution to the problem of rust in biological material. Polynuclear iron complexes o...
the reticuloendothelial cell has been characterized by kinetic measurements of blood radioactivity m...
Ferritins are proteins, which serve as a storage and transportation capsule for iron inside living o...
Extensive in-vitro studies have focused on elucidating the mechanism of iron uptake and mineral core...
Iron is a transition element which has two biologically important oxidation states, +2 and +3. It is...
<p>Fig 10A: Simulation with facilitated-transport model quantifies the sensitivity of iron release t...
Reconstitution experiments were conducted to study the effect of temperature, reaction rate, and pho...
<div><p>A major process of iron homeostasis in whole-body iron metabolism is the release of iron fro...
The objective was to explore how ferritin-H deletion influences Fe-59-distribution and excretion-kin...
Ferritin, a major iron storage protein in mammalian cells, consists of multiple molecular forms desi...
Artículo de publicación ISIBackground: Iron is essential for the maintenance of basic cellular proce...
a. Mineralization rate over time as a function of iron APC. a series of simulations were run for whi...
The excessively high and inconsistent literature values for Km,Fe and Km,O2 prompted us to examine t...
Ferritins are highly conserved supramolecular protein nanostructures composed of two different subun...
Increased iron concentration in tissues appears to be a factor in the genesis and development of inf...
Ferritin is the solution to the problem of rust in biological material. Polynuclear iron complexes o...
the reticuloendothelial cell has been characterized by kinetic measurements of blood radioactivity m...
Ferritins are proteins, which serve as a storage and transportation capsule for iron inside living o...
Extensive in-vitro studies have focused on elucidating the mechanism of iron uptake and mineral core...
Iron is a transition element which has two biologically important oxidation states, +2 and +3. It is...
<p>Fig 10A: Simulation with facilitated-transport model quantifies the sensitivity of iron release t...
Reconstitution experiments were conducted to study the effect of temperature, reaction rate, and pho...
<div><p>A major process of iron homeostasis in whole-body iron metabolism is the release of iron fro...
The objective was to explore how ferritin-H deletion influences Fe-59-distribution and excretion-kin...
Ferritin, a major iron storage protein in mammalian cells, consists of multiple molecular forms desi...
Artículo de publicación ISIBackground: Iron is essential for the maintenance of basic cellular proce...
a. Mineralization rate over time as a function of iron APC. a series of simulations were run for whi...
The excessively high and inconsistent literature values for Km,Fe and Km,O2 prompted us to examine t...
Ferritins are highly conserved supramolecular protein nanostructures composed of two different subun...