Spontaneous formation of tubular microstructure vesicle from PTA/SDS system

Spontaneous vesicle formation and transforma- tion of vesicle to tubular microstructure have been observed in aqueous mixtures of tri-(n-dodecyl-dimethyl-hydroxy- propylammonium chloride) phosphate (PTA) and sodium dedecyl sulfate (SDS), which is supported by negative-stain- ing transmission electron microscopy (TEM), scan electron microscopy (SEM) and dynamic light scattering (DLS). Spherical vesicles aggregate to tubular microstructures with their diameters and lengths respectively of about 100 and 7000 nm in the freshly prepared sample at the molar ratio of PTA/SDS=3/7 and a total surfactant concentration of 0.01 mol/L. The diameter, the length and the quantity of tubular structures all increase with the increase of the total concen- tration of surfactant and the sample aging.

Actin,more than just a housekeeping protein at the scene of fertilization

Since the first demonstration of sperm entry into the fertilized eggs of Mediterranean sea urchin Paracentrotus lividus by Hertwig(1876),enormous progress and insights have been made on this topic.However,the precise molecular mechanisms underlying fertilization are largely unknown.The two most dramatic changes taking place in the zygote immediately after fertilization are:(i) a sharp increase of intracellular Ca2+ that initiates at the sperm interaction site and traverses the egg cytoplasm as a wave,and(ii) the concomitant dynamic rearrangement of the actin cytoskeleton.Traditionally,this has been studied most extensively in the sea urchin eggs,but another echinoderm,starfish,whose eggs are much bigger and transparent,has facilitated experimental approaches using microinjection and fluorescent imaging methodologies.Thus in starfish,it has been shown that the sperm-induced Ca2+ increase in the fertilized egg can be recapitulated by several Ca2+ -evoking second messengers,namely inositol 1,4,5-trisphosphate(InsP3) ,cyclic ADP-ribose(cADPr) and nicotinic acid adenine dinucleotide phosphate(NAADP) ,which may play distinct roles in the generation and propagation of the Ca2+ waves.Interestingly,it has also been found that the dynamic rearrangement of the actin cytoskeleton in the fertilized eggs plays pivotal roles in guiding monospermic sperm entry and in the fine modulation of the intracellular Ca2+ signaling.As it is well known that Ca2+ regulates the structure of the actin cytoskeleton,our finding that Ca2+ signaling can be reciprocally affected by the state of the actin cytoskeleton raises an intriguing possibility that actin and Ca2+ signaling may form a'positive feedback loop'that accelerates the downstream events of fertilization.Perturbation of the cortical actin networks also inhibits cortical granules exocytosis.Polymerizing actin bundles also compose the'acrosome process,'a tubular structure protruding from the head of fertilizing sperm. Hence,actin,which is one of the most strictly conserved proteins in eukaryotes,modulates almost all major aspects of fertilization.