Biological properties and ultrastructure of brucellae during L-transformation and reversion]

There was shown a difference in the biological properties and the ultrastructure of two strains of brucellae, spheroplasts obtained from them under the action of penicillin, L-form and revertants obtained from the L-form. Spheroplasts formation was characterized by a change of brucellae into R-form and some virulence reduction. The cells had an outer and a cytoplasmic membranes, and usually lost their capacity to binary division. L-forms were obtained during the 9th and the 35th passage on a medium with penicillin; their formation was accompanied by the change in serological properties of the culture and significant reduction of the virulence; the cells were characterized by a marked polymorphism and the capacity to budding; they had 2 membranes on the cell surface and an intensively developed system of intracytoplasmic membranes. The revertants formed on the medium without penicillin during the 16th-30th passage or spontaneously on the medium with penicillin. They differed from the initial strains of brucella culture by a marked increase in penicillin-resistance, by the changes in serological properties, and also by polymorphism of cells, capable, however, of binary division.     

Spermatogenesis in Bombyx mori. II. The ultrastructure of synapsed bivalents

In Bombyx mori the male is the homogametic sex, crossing over occurs only in males, and chiasmata are observed in spermatocytes, but not in oocyte nuclei. If the assembly of synaptonemal complexes is an essential prerequisite for genetic crossing over and chiasmata formation, then the nuclei of Bombyx spermatocytes should contain synaptonemal complexes. Synaptonemal complexes were found in spermatocytes from young four instar larvae. The structure of meiotic bivalents is described using micrographs taken with 100 and 1000 KV electron microscopes. These data together with that from the literature are used to construct a three-dimensional model of the synaptonemal complex and to suggest its method of origin and its function during crossing over.     

Pollen ultrastructure in anther cultures of Datura innoxia. II. The generative-cell wall.

In young pollen grains of Datura innoxia, a wall of the usual hemispherical type separates the 2 gametophytic cells initially and, in the electron microscope, appears as an electron-translucent matrix which is contiguous with the intine. Before detachment of the generative cell from the intine, the matrix decreases in thickness and in places is dispersed altogether leaving the plasmalemmae on either side of it in close apposition. A particularly prominent zone, triangular in profile, is left where the wall joins with the intine. After detachment of the cell, remnants of the matrix can be seen distributed irregularly around the cell and it is supposed that these are partly derived from material in the triangular zone as the cell is drawn away from the intine. The wall residues persist throughout the maturation phase of the pollen and are considered to be either callose resulting from incomplete digestion of the initial wall, or some other polysaccharide material which is unevenly laid down along the wall and concentrated at the junction with the intine. In pollen induced into embryogenesis by anther culture, wall material is also distributed irregularly around the detached cell in a series of discrete zones, but these are more extensive than in vivo, closer together and in many instances highly dilated. The wall profiles thus have a beaded appearance, the 'beads' being connected together by short links of the 2 apposed plasmalemmae. The contents of the swollen zones have a similar electron density to that of the matrix in vivo but also show traces of a fibrillar component. It is postulated that this unusual swelling is a prelude to dispersal of the wall by disruption of the plasmalemmal links and to the establishment of cytoplasmic continuity between the 2 cells. The significance of such binucleate pollen grains in the formation of non-haploid embryos is discussed.