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Literature DB >> 5773035

Structural changes in Stigmatella aurantiaca during myxospore induction.

Abstract

Suspension cultures of Stigmatella aurantiaca (Chondromyces aurantiacus) were induced to form myxospores by addition of glycerol to the growing culture. The cells were fixed at various stages during conversion, thin sections were prepared, and changes in fine structure were studied. Vegetative cells are quite similar in their ultrastructure to Myxococcus xanthus. During transformation into myxospores, three important cytological changes were observed. Granules of storage material, probably polysaccharide and polyphosphate, accumulated; a 200 to 300-mum thick capsule was laid down, and the outer triple layer of the cell wall became locally folded. These cell wall folds were often densely packed and lay in pockets formed by the cytoplasmic membrane. We have suggested the possibility that the cell may store in these folds wall material which has become superfluous by the decrease in surface area during conversion.

Entities: Chemical Species

Mesh：

Substances：
Glycerol

Year: 1969 PMID： 5773035 PMCID： PMC249776 DOI： 10.1128/jb.97.2.905-911.1969

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

10 in total

9 in total

7. Localization of the stress protein SP21 in indole-induced spores, fruiting bodies, and heat-shocked cells of Stigmatella aurantiaca.

Authors: H Lünsdorf; H U Schairer; M Heidelbach
Journal: J Bacteriol Date: 1995-12 Impact factor: 3.490

8. Ultrastructure of Polyangium cellulosum.

Authors: J R Lampky
Journal: J Bacteriol Date: 1976-06 Impact factor: 3.490

9. Fruiting-body formation and myxospore differentiation and germination in Mxyococcus xanthus viewed by scanning electron microscopy.

Authors: L Shimkets; T W Seale
Journal: J Bacteriol Date: 1975-02 Impact factor: 3.490

9 in total

Structural changes in Stigmatella aurantiaca during myxospore induction.

1. Fine structure of Myxococcus xanthus during morphogenesis.

2. Nutritional requirements for vegetative growth of Myxococcus xanthus.

3. [Electron microscopic study on plasmas containing desoxyribonucleic acid. I. Nucleoids of actively growing bacteria].

4. Fixation of ejaculated spermatozoa for electron microscopy.

5. The physical organization of the cytoplasm in Myxococcus zanthus and the fine structure of its components.

6. The "polyphosphate overplus" phenomenon in Myxococcus xanthus and its influence on the architecture of the cell.

7. The fate of the cell envelopes of Myxococcus xanthus during microcyst germination.

8. A SYSTEM FOR STUDYING MICROBIAL MORPHOGENESIS: RAPID FORMATION OF MICROCYSTS IN MYXOCOCCUS XANTHUS.

9. The use of lead citrate at high pH as an electron-opaque stain in electron microscopy.

10. Improvements in epoxy resin embedding methods.

Review 1. Mesosomes: membranous bacterial organelles.

2. Surface structure of gliding bacteria after freeze-etching.

3. Fine structure of fruiting bodies of Stigmatella aurantiaca (Myxobacterales).

4. Induction of myxospore formation in Stigmatella aurantiaca (Myxobacterales) by monovalent cations.

5. Control of morphogenesis in Geodermatophilus: ultrastructural studies.

6. The fine structure of Herpetosiphon, and a note on the taxonomy of the genus.

7. Localization of the stress protein SP21 in indole-induced spores, fruiting bodies, and heat-shocked cells of Stigmatella aurantiaca.

8. Ultrastructure of Polyangium cellulosum.

9. Fruiting-body formation and myxospore differentiation and germination in Mxyococcus xanthus viewed by scanning electron microscopy.