The gut supports neurogenic differentiation of periocular mesenchyme, a chondrogenic neural crest-derived cell population

Periocular mesenchyme (PM) is a mesencephalic neural crest derived cell population which as a result of an interaction with the retinal pigment epithelium forms the scleral cartilage of the avian eye. Enteric neurons are derived from vagal crest cells which invade the gut. To study factors which regulate neuronal differentiation, we investigated whether the gut could direct neurogenesis in PM, a cell population that does not produce neurons in vivo. We report here that PM cultured in the presence of aneural chick hindgut on the chorioallantoic membrane (CAM), invaded the gut and formed large numbers of neurons. These were localized in enteric ganglia and contained neurofilament immunoreactivity, vasoactive intestinal peptide immunoreactivity, and somatostatin immunoreactivity. In the control PM cultured alone on the CAM, a small number of cells contained neurofilament immunoreactivity but lacked the appearance of mature neurons.     

Structural Properties and Features of Parasitic Bdellovibrio bacteriovorus

The structure of five parasitic strains of Bdellovibrio bacteriovorus was studied by electron microscope after negative staining and in shadow-case and etched freeze-fractured preparations. Special attention was paid to the cell wall and the flagellar sheath which is continuous with the wall or part of it. These structural components reveal distinct features which are induced by certain staining substances; they are exceedingly susceptible to disruption by physical treatments, and in old cells often appear impaired. In freeze-fractured cells the wall shows characteristic fracturing tendencies not known in other microorganisms. These structural properties and features are distinct to Bdellovibrio wall and flagellar sheath, the structural integrity of which is a fundamental requirement for the infectivity and survival of this organism. The anterior end of Bdellovibrio is differentiated: 6 to 12 ring-like structures (9 to 12 nm, outer diameter) are built into its wall and several fibers (7 to 10 nm wide, up to 1.5 μm long) emerge from it. Intracellular structures, which are revealed as compact oval bodies bulging from the cell border and have internal laminated organization, are characteristic of Bdellovibrio after negative staining with certain compounds. These findings on the structure of parasitic Bdellovibrio substantiate previous observations indicating the uniqueness of this organism and add criteria for the identification of this genus.     

Mediator structure and conformation change

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