New directions in liposome gene delivery

The history of liposomes, progress in liposome gene delivery, and future directions are discussed. Specific characteristics of liposomes and DNA:liposome complexes have been identified that are essential for optimal delivery and gene expression. Of particular interest are the requirements for increased delivery and high levels of gene expression in vivo. At present, significant efforts are focused towards achieving specific delivery and gene expression in target organs and tissues.     

Fluorescence spectral resolution of myelin basic protein conformers in complexes with lysophosphatidylcholine

The structure of (Deibler) myelin basic protein in solution and in a lysolecithin lipid complex has been studied by using the emission properties of the single tryptophan residue of the protein (Trp-115). The studies have been carried out using both static and time-resolved fluorescence techniques. Relative to the free protein, the lipid bound myelin basic protein showed a, twofold increase in fluorescence intensity and a marked blue-shift in the emission maximum wavelength. The multiexponential fluorescence decays and the decay associated spectra indicated that the protein exists in at least three different conformations both in buffer and in lipids. Fluorescence polarization and acrylamide quenching experiments showed that the tryptophan containing region of the protein is embedded in the lipid matrix. The binding of the protein to the lipid appears to be comparable with that predicted for the interaction of amphipathic helices with nonpolar lipids.     

A review of protein engineering for the food industry

In this review I briefly describe the technique of protein engineering and indicate how the present state of knowledge allows proteins to be mutated to increase or decrease stability. I discuss experiments on both model proteins and those of relevance to the food industry and show how hydrophobic forces are a major driving force for folding as well as having a major role in thermostability, I also indicate the large contribution that hydrogen bonding, electrostatic interactions and, in a less well predicted way, disulfide bridges make to thermostability.     

Enhancement of the kidney Cd burden by SH-containing chelating agents

The accumulation of Cd in the kidneys is enhanced markedly if chelating agents that contain SH-groups like 2,3 dimercaptopropanol (BAL) are injected immediately after the metal. This is not a transient effect but persists for more than 3 d. It is less pronounced at higher chelate doses or when the pH of urine is increased. Our experiments indicate that chelating agents, which form unstable complexes at acid pH and are able to pass through the cell membrane, will cause metal accumulation in the kidneys.     

The effect of diabetes on the molecular localization of maternal and fetal zinc and copper metalloprotein in the rat

The molecular localization of maternal and fetal zinc and copper metalloproteins in diabetic and control rats was studied. Compared to controls, liver and kidneys of diabetic dams showed an increased concentration of zinc and copper that was associated with metallothionein. In contrast, fetuses of diabetic dams had lower zinc and metallothionein levels than fetuses from controls. The abnormal maternal trace element metabolism seen with diabetes resulted in alterations of zinc uptake and/or retention of their fetuses.