Most cited article - PubMed ID 234904
Electron-microscopic study of a Mycoplasmatales virus, strain MV-Lg-pS2-L 172
Various stages of virus and mycoplasma budding indicated that both virus and, most probably some mycoplasma progeny developed by budding. Besides this alternative, binary fission was the mode of mycoplasma reproduction. Mycoplasma-virus and mycoplasma-mycoplasma connections by stems were observed. Circular scars, 40-80 nm in diameter, often in groups, were left in the membrane of mycoplasmas by the budding bodies. cytoplasmic structures seen in cross-fraction are presented. a relatively small number of globular virus-like bodies, not identical with MV-Lg-L 172, were observed budding from mycoplasma cells in the non-infected host culture.
The main types of ultrastructures found in the freeze-fracture faces of Acholeplasma laidlawii S 2 and its virus MV-Lg-L 172 were (1) particles 7-19 nm in diameter, mostly located in the convex cytoplasmic fracture faces. (2) small bulges or aggregates, 13-25 nm in diameter, which occupied only limited areas of both inner and outer fracture faces of some mycoplasmas, (3) numerous tiny grains and/or spikes 2-6 nm in diameter, protruding from a finely structured background, especially in the outer concave mycoplasmal fracture faces, and (4) linear structures, most probably fibrils and thicker filaments, both in the fracture faces and around mycoplasmas and viruses and connected with them. There was a high degree of structural similarity between mycoplasmal and viral membranes: no obvious significant difference was found.
Morphology and adsorption of a globular virus, lysing Acholeplasma laidlawii were studied in ultrathin sections of plaques in a lawn of the host strain. The virus was globular, about 50 to 90 nm in diameter, with a clearly defined membrane, 6.5 to 8 nm thick. A protuberance about 25 to 35 nm long and 12 to 20 nm thick was observed on numerous virus particles. The evenly granulated, electron-optically dense content of the cells became clearer in cells affected by the viruses. Fibrillar structures of different thickness and small dense areas appeared in cells assumed to be in the preliminary stages of lysis. The interactions in the virus-host system and possible development stages of the virsu are discussed.
- MeSH
- Acholeplasma laidlawii * ultrastructure MeSH
- Adsorption MeSH
- Bacteriophages growth & development ultrastructure MeSH
- Bacteriolysis MeSH
- Cell Membrane microbiology MeSH
- Cytoplasm microbiology MeSH
- Microscopy, Electron MeSH
- Lysogeny MeSH
- Viral Plaque Assay MeSH
- Virus Replication MeSH
- Viral Proteins MeSH
- Publication type
- Journal Article MeSH
- Names of Substances
- Viral Proteins MeSH
