[Advances in iron metabolism: a transition state]. / Données récentes sur le métabolisme du fer: un état de transition.

PURPOSE: Advances towards the understanding of gene regulation and protein function recently discovered through iron metabolism disorders are the subject of this review. CURRENT KNOWLEDGE AND KEY POINTS: Within a few years the discovery of genes that determine heritable defects of cellular iron uptake or regulation in mice as in humans have provided new insights for investigation into iron metabolism pathways. FUTURE PROSPECTS AND PROJECTS: It is still unclear how connections are made between new proteins in iron uptake, trafficking and regulation of iron homeostasis. Gene expression studies using microarrays technology in different iron conditions should help to explore iron homeostasis further.

Increased rate of capping of concanavalin A receptors during early Xenopus development is related to changes in protein and lipid mobility.

The mobility characteristics of plasma membrane constituents were studied in dissociated cells from embryos of Xenopus laevis at various stages of development from early blastula until neurulation. An increased rate of fluorescein isothiocyanate-concanavalin A induced patching and capping of Con A-binding proteins during this period of development was correlated with a threefold increase in the lateral mobility of the receptor molecules, as determined by the fluorescent photobleaching recovery (FPR) method, the major change occurring at the onset of gastrulation. Using the same method, it was demonstrated that the lateral mobility of plasma membrane lipids increases twofold during this period of development. The major change being detectable, however, at the late blastula stage. This is in coincidence with the initiation of cell motility in dissociated Xenopus embryo cells. It is concluded that the lateral mobility of membrane proteins and lipids increases significantly during early Xenopus development, but are at least in part subject to different control mechanisms. The results suggest that the initiation of morphogenetic movements is related to changes in the dynamic properties of plasma membrane constituents.

Conformation of DNA in chromatin protein-DNA complexes studied by infrared spectroscopy.

The following observations concerning the DNA secondary structures in various nucleohistone complexes were made by infrared spectroscopy: 1/ in chromatin, chromatin extracted by 0.6 M NaCl, nucleosomes, and histone-DNA reconstituted complexes, the DNA remains in a B type conformation at low relative hygrometry; 2/ in chromatin extracted by tRNA and in non histone protein-DNA reconstituted complexes, the DNA can adopt an A type conformation. Infrared linear dichroism data show that in NHP-DNA complexes the low relative hygrometry conformation of DNA may be modified and that the infrared parameter -1090 is close to that measured for RNA's or DNA-RNA hybrids. It is concluded that the histones block the DNA in a B form and that some of the NHP could be involved in the control of the secondary structure of DNA in chromatin.