G. P. Manire scite author profile

L ceRs were infected at high multiplicity with meningopneumonitis organisms and incubated in medium containing 200 units per ml of penicillin. At intervals up to 48 hr after infection, cells were removed and thin sections were prepared for electron microscopic studies on the morphology of the developing organism. Penicillin had no effect on the initial reorganization of the infecting elementary body to form the developmental reticulate body (RB), and, up to 12 hr after infection, the treated and untreated cultures were identical. After that time, however, penicillin-treated organisms showed striking differences in that binary fission was prevented, large abnormal RB forms were seen in great numbers, masses of RB cytoplasmic membranes and envelopes were formed within and outside the RB itself, and large numbers of empty or partially filled small vesicles were pinched off the RB. After 36 hr immature nucleoids were formed within the RB. Throughout all of this period, both the outer cell envelope and the cytoplasmic membrane of these RB were recognized. When infected cells were transferred into penicillin-free medium, the abnormal RB showed recovery to form normal RB both by a budding-like process and by internal fragmentation or subdivision rather like endosporulation. We have concluded that penicillin inhibits binary fission and prevents the synthesis of certain components essential for the formation of the elementary body envelope. Organisms in the genus Chlamydia undergo a complex growth cycle in which the infectious form [elementary body (EB)] penetrates a sus

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A Search for the Bacterial Mucopeptide Component, Muramic Acid, in Chlamydia

Garrett

Harrison

Manire

1974

Journal of General Microbiology

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Preparation and Chemical Composition of the Cell Walls of Mature Infectious Dense Forms of Meningopneumonitis Organisms

Manire

Tamura

1967

J Bacteriol

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Relatively large-scale production and purification of meningopneumonitis organisms was developed for chemical and immunological studies on cell walls of the infectious dense forms. By disruption of purified organisms with glass beads in a Mickle shaker, highly purified preparations of cell walls were obtained by sucrose density gradient centrifugation, enzyme digestion, and sodium dodecyl sulfate treatment. The dry-weight recovery of purified cell walls from intact organisms was about 13%. When32P-labeled preparations of cell wails were fractionated into acid-soluble, lipid, ribonucleic acid (RNA), deoxyribonucleic (DNA), and residual fractions, about 80% of the 32P in cell wall preparations was recovered in the phospholipid fraction, which corresponded to about 3% of the total phospholipid in the intact organisms. About 7% of the 32P in purified cell walls was recovered in the RNA and DNA fractions respectively, but this corresponds to only about 0.4% of the 32P found in those fractions in intact organisms. From dry-weight determinations, it was calculated that the purified cell wall preparations contained only 0.6% total nucleic acids, and these are probably not true cell wall constituents. These cell walls contained 70 to 75% protein, corresponding to about 14% of the protein in intact organisms. Amino acid analysis of these proteins showed the existence of all common amino acids, glucosamine, and galactosamine. However, no muramic acid was detected by the methods employed.

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Effect of Penicillin on the Multiplication of Meningopneumonitis Organisms ( Chlamydia psittaci )

Tamura

Manire

1968

J Bacteriol

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Although formation of infectious particles of meningopneumonitis organism in L cells was completely inhibited by 1 or more units of penicillin per ml, multiplication of reticulate bodies was observed, by light microscopy, in the presence of 200 units of penicillin per ml in stained smears of infected cells. When reticulate bodies were purified from cultures containing penicillin after 18, 30, and 45 hr of incubation, continuously increasing yields were obtained. When penicillin was added to infected cultures 0 to 15 hr after infection, no increase in infectivity was observed at 40 hr, but when antibiotic was added between 20 and 35 hr, partial synthesis of infectious particles was observed at 40 hr. On the other hand, removal of penicillin from an infected culture before 15 hr after infection did not affect the final yields of infectivity when assayed at 40 hr, but elimination of penicillin after 20 hr resulted in a decrease in infectivity. In suspensions of 32P-labeled purified reticulate bodies grown in cultures containing penicillin and harvested 18 and 40 hr after infection, the 32p distributions obtained by acid fractionation were similar to those of reticulate bodies from penicillin-free cultures. Cell membranes of reticulate bodies were also prepared from 40-hr cultures with penicillin. The size and shape of purified membranes, as seen by electron microscopy, and their amino acid compositions were similar to membranes prepared from reticulate bodies grown without penicillin, except that very small structures were observed in membranes from cultures containing penicillin. These results indicated that penicillin does not inhibit reproduction of reticulate bodies and formation of their cell membranes, but does inhibit the formation of elementary body cell envelopes.

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Preparation and Chemical Composition of the Cell Membranes of Developmental Reticulate Forms of Meningopneumonitis Organisms

Tamura

Manire

1967

J Bacteriol

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The outer limiting membranes of developmental reticulate forms of the meningopneumonitis organism were purified by a combination of differential centrifugation, trypsin digestion, and sodium dodecyl sulfate treatment, and their physical and chemical properties were compared with those of outer envelopes of mature dense forms of this organism. Reticulate bodies were easily disrupted by short periods of sonic treatment and were lysed by trysin digestion, in contrast to the dense bodies which were resistant to these treatments. In electron micrographs, reticulate body membranes were seen as very thin, flattened structures, whereas dense-body envelopes showed folding rigid membranes. The results of chemical fractionation of 32p labeled purified preparations indicated that reticulate body membranes have smaller amounts of phospholipid, and are more dense than cell walls of the mature forms. The analysis of amino acid composition of reticulate body cell membranes showed that they do not contain cystine or methionine, both of which were found in cell walls of dense bodies. These results clearly show that there are significant differences in the chemical and physical properties of the outer envelopes of the developmental and mature forms of this organism. 'I188

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G. P. Manire

Electron Microscopic Observations on the Effects of Penicillin on the Morphology ofChlamydia psittaci

A Search for the Bacterial Mucopeptide Component, Muramic Acid, in Chlamydia

Preparation and Chemical Composition of the Cell Walls of Mature Infectious Dense Forms of Meningopneumonitis Organisms

Effect of Penicillin on the Multiplication of Meningopneumonitis Organisms ( Chlamydia psittaci )

Preparation and Chemical Composition of the Cell Membranes of Developmental Reticulate Forms of Meningopneumonitis Organisms

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