Osmotic tolerance of avian erythrocytes to complete hemolysis in solute free water.

Osmotic behavior of erythrocytes is not only important clinically, but is also significant in understanding of material transport across biological membranes. It is most commonly studied through fragiligrams - plots of the degree of hemolysis as a function of extracellular osmolarity. A fundamental assumption in experimental and theoretical studies on osmolarity driven transport of water across the plasma membranes of all cells is the sigmoidal nature of their osmotic behavior.

Cell-penetrating and cargo-delivery ability of a spider toxin-derived peptide in mammalian cells.

Cell-penetrating peptides are short cationic peptides with inherent ability to cross the plasma membrane barrier as well as intracellularly deliver cargo molecules conjugated to them. Venoms from snakes, scorpions and spiders are rich in membrane-active peptides. Crotamine from snake venom as well as maurocalcine and imperatoxin isolated from scorpion venoms have been reported to possess cell-penetrating property in mammalian cells.

CyLoP-1: Membrane-active peptide with cell-penetrating and antimicrobial properties.

CyLoP-1 is a cysteine-rich cell-penetrating peptide derived from nuclear localization sequence of snake toxin, crotamine. The peptide has shown cytoplasmic uptake in mammalian cells at lower concentrations. In the present study, the cell-penetrating and antimicrobial activity of the peptide has been studied by employing mammalian cells, plant cells as well as bacterial and fungal pathogens.

Membrane-active peptides from marine organisms--antimicrobials, cell-penetrating peptides and peptide toxins: applications and prospects.

Marine organisms are known to be a rich and unique source of bioactive compounds as they are exposed to extreme conditions in the oceans. The present study is an attempt to briefly describe some of the important membrane-active peptides (MAPs) such as antimicrobial peptides (AMPs), cell-penetrating peptides (CPPs) and peptide toxins from marine organisms. Since both AMPs and CPPs play a role in membrane perturbation and exhibit interchangeable role, they can speculatively fall under the broad umbrella of MAPs.