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Literature DB >> 16561963

LOCALIZATION OF RESPIRATORY ENZYMES IN INTRACYTOPLASMIC MEMBRANES OF AZOTOBACTER AGILIS.

Abstract

Pangborn, J. (University of California, Davis), Allen G. Marr, and S. A. Robrish. Localization of respiratory enzymes in intracytoplasmic membranes of Azotobacter agilis. J. Bacteriol. 84:669-678. 1962.-Thin sections of the cells of Azotobacter agilis which have been disrupted by sonic treatment, by osmotic shock, or by ballistic disintegration reveal a network of internal membranes in the form of vesicles and tubules. The internal membranes are attached to the envelope. Treatment in a Mickle disintegrator of envelopes emptied of cytoplasm by osmotic shock results in the loss of the internal membranes and a concomitant release of reduced diphosphopyridine nucleotide oxidase from the envelopes. Thus, the intracytoplasmic membranes are the probable locus of the respiratory enzymes of the cell. Thin sections of whole cells show tubular intracytoplasmic membranes which are obscured by ribosomes and other dense cytoplasmic constituents.

Year: 1962 PMID： 16561963 PMCID： PMC277942 DOI： 10.1128/jb.84.4.669-678.1962

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

14 in total

10. Electron microscope study of DNA-containing plasms. II. Vegetative and mature phage DNA as compared with normal bacterial nucleoids in different physiological states.

Authors: E KELLENBERGER; A RYTER; J SECHAUD
Journal: J Biophys Biochem Cytol Date: 1958-11-25

18 in total

LOCALIZATION OF RESPIRATORY ENZYMES IN INTRACYTOPLASMIC MEMBRANES OF AZOTOBACTER AGILIS.

1. Electron microscopy of ultrathin sections of bacteria. III. Cell wall, cytoplasmic membrane, and nuclear material.

2. The fine structure of vegetative cells of Bacillus subtilis.

3. Coupling of phosphorylation to electron and hydrogen transfer by a chemi-osmotic type of mechanism.

4. Enzyme localization in Bacillus megaterium.

5. Electron microscopy of disrupted bacteria treated with polymyxin E.

6. Method for the determination of hexosamines in tissues.

7. Participation of the cytoplasmic membrane in the growth and spore fromation of bacilli.

8. A membranous component of the cytoplasm in Streptomyces coelicolor.

9. Cell wall and cytoplasmic membrane of Escherichia coli.

10. Electron microscope study of DNA-containing plasms. II. Vegetative and mature phage DNA as compared with normal bacterial nucleoids in different physiological states.

Review 1. Mesosomes: membranous bacterial organelles.

2. Time line of discoveries: anoxygenic bacterial photosynthesis.

3. Dorsal-ventral differentiation in Simonsiella and other aspects of its morphology and ultrastructure.

4. Properties of some reductase enzymes in the nitrifying bacteria and their relationship to the oxidase systems.

5. Fractionation and characterization of the plasma and mesosome membrane of Listeria monocytogenes.

6. Mesosome structure in Chromobacterium violaceum.

7. Fine structure and tellurite reduction in azotobacter vinelandii.

8. Cytochemistry of cytochrome oxidase in the cytoplasmic and intracytoplasmic membranes of Azotobacter vinelandii.

9. Oxidation of D(minus) lactate by the electron transport fraction of Azotobacter vinelandii.

10. Spectrophotometric and kinetic study of nitrite and formate oxidation in Nitrobacter winogradskyi.