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Query: UMLS:C0026936 (Mycoplasma)
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The morphology of Ureaplasm urealyticum in broth cultures was studied by phase-contrast microscopy. Most organisms appeared singly or in pairs. Long filaments and long chains of cocci, common in classical mycoplasma cultures, were not observed. On solid medium, U. urealyticum produced "fried-egg" colonies which developed according to the scheme suggested by Razin and Oliver (J. Gen. Microbiol., 1961) for the morphogenesis of the classical mycoplasma colonies. The formation of the peripheral zone of the colonies followed that of the central zone only when growth conditions were adequate, Hence, the appearance of peripheral zones, and consequently the larger colony size, can be taken as an indicator of improved growth conditions. Incubation in an atmosphere of 100% CO2 resulted in significantly larger colonies than in an atmosphere of N2, O2, or air. CO2 acts as a buffer, keeping the pH at the optimal range for Ureaplasma growth (pH 6.0 to 6.5) in the presence of the ammonia produced from the urea hydrolyzed by the organisms. The addition to the medium of 0.01 M urea together with 0.01 M putrescine enabled better growth than with urea alone. Small amounts of phosphate improved growth in an atmosphere of CO2, apparently fulfilling a nutritional role. Under nitrogen, higher phosphate concentrations were required for good growth, apparently serving as a buffer as well as a nutrient. Sodium chloride and sucrose which had been added to increase the tonicity of the medium inhibited growth above 0.1 M. An increase in the agar concentration above 2% resulted in decreased colony size. Likewise, prolonged drying of the agar plates caused a marked decrease in colony size, mostly affecting the peripheral zone. The addition of both urea and putrescine to the growth medium and incubation in a humidified CO2 atmosphere are recommended for improved growth and formation of fried-egg colonies of U. ureaplyticum on agar. It must be emphasized that these experiments were carried out with a laboratory-adapted strain.
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PMID:Morphology of Ureaplasma urealyticum (T-mycoplasma) organisms and colonies. 1 86

Arginine has been considered as the major energy source of nonglycolytic arginine-utilizing mycoplasmata. When three strains of Mycoplasma arginini, and one strain each of Mycoplasma arthritidis, Mycoplasma fermentans, Mycoplasma gallinarum, Mycoplasma gallisepticum and Mycoplasma hominis were grown in the medium with high arginine concentration (34 mM) compared with low arginine (4 mM), both the protein content of the organisms and the specific activity of arginine deiminase increased. M. fermentans, the one arginine-utilizing species included in the survey which is also glycolytic, showed an increase in protein content but no increase in specific activity of the enzyme. The glycolytic non-arginine-utilizing M. gallisepticum did not show an increase in either parameter. The Km for arginine deiminase from crude cell extracts was 1.66 X 10(-4)M. The enzyme demonstrated a hyperbolic activation curve subject to substrate inhibition and was not affected by the presence of L-histidine. When mycoplasmic protein and arginine deiminase were determined for M. hominis under aerobic and anaerobic conditions, aerobically grown cells exhibited no detectable enzymatic increases until late in log phase. Higher levels of arginine deiminase were observed earlier in the anaerobic growth cycle. The rate of 14CO2 evolution from [guanido-14C]arginine was not altered in arginine-supplemented cells compared with cells grown in low arginine. In addition, CO2 production did not parallel increased arginine deiminase activity. These observations argue that arginine is used only as an alternate energy source in these organisms.
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PMID:Role of arginine deiminase in growth of Mycoplasma hominis. 126 6

We describe three cases of extragenital infection by Mycoplasma hominis in three patients transplanted with kidneys from cadaver donors. In two patients, the microorganism was isolated in the exudate from the surgical wound after 72 hrs. of culture on blood-agar (Columbia + 5% horse blood) in CO2 and under anaerobic conditions. In the remaining case, M. hominis was isolated in urine from a suprapubic catheter. All three patients responded satisfactorily to treatment with doxycycline. Mycoplasma hominis should be considered as the possible source of infection in patients at risk because of immunosuppressive therapy and manipulation of the urinary tract. Detection and identification of the organism are difficult without the appropriate techniques.
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PMID:Mycoplasma hominis infection in three renal transplant patients. 207 94

The effect of experimental, peracute, porcine pleuropneumonia on arterial blood gases, acid base status, the leukogram, and gross and microscopic lung structure was studied in nine growing pigs (mean weight +/- SD 10.6 +/- 2.0 kg). Pigs were inoculated intranasally with a virulent serotype 5 isolate of Actinobacillus pleuropneumoniae, and all showed signs typical of the disease within four hours. Death occurred in all pigs from 4.5 to 32 hours postinoculation (mean 14 hours). Gross and microscopic changes were typical of porcine pleuropneumonia in all pigs. Changes in the leukogram included a rapid decline in total white cells, segmented neutrophils, lymphocytes, monocytes, and eosinophils. Pigs maintained alveolar ventilation throughout the study as arterial CO2 tension was unchanged; however, arterial O2 tension and pH decreased from (mean +/- SD) 95.2 +/- 5.7 torr and 7.463 +/- 0.018 at baseline to 62.1 +/- 12.3 torr and 7.388 +/- 0.045, respectively, within 90 minutes prior to death. The data showed that in this model of peracute porcine pleuropneumonia, progressive ventilatory failure was not a feature of the disease, and the blood gas values and acid base status were maintained within physiological ranges. The histopathological hematological and physiological findings were consistent with the hypothesis that peracute porcine pleuropneumonia resembles septic shock.
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PMID:Blood gas and hematological changes in experimental peracute porcine pleuropneumonia. 210 82

Cultures of Mycoplasma hyopneumoniae and M. flocculare in Friis' broth grew faster and to higher titers in air than in 8% CO2; cultures in air grew better when shaken than when stationary. Under the optimal conditions, both species have generation times of about 10 h and achieve maximum titers of at least 10(9) organisms per ml. Maximum growth was reached near pH 7.0, before the phenol red indicator had noticeably changed colour. Changes in growth were readily detected by an ATP assay based upon the luciferin-luciferase reaction. Concentrations of ATP fell rapidly after peak growth. Although the addition of 27 mM glucose to the medium did not change the pattern of growth and gas chromatography gave no evidence of the production of volatile or non-volatile end-products, washed harvested cells of both species metabolized [14C]-glucose. The addition of 29 mM arginine to the medium inhibited growth.
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PMID:The growth response of Mycoplasma hyopneumoniae and Mycoplasma flocculare based upon ATP-dependent luminometry. 223 59

The failure of many cell culture isolates of Mycoplasma hyorhinis to grow on microbiological media has stressed the need for alternate assays to detect these organisms. The use of freshly prepared yeast extract in mycoplasmal media together with incubation in 5% CO2/air successfully detected M. hyorhinis in 12 of 12 infected cultures. These were not detected by the use of conventional mycoplasmal media using aerobic or anaerobic incubation. This assay may also be helpful in detection of other mycoplasmal species commonly isolated from cell cultures.
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PMID:Microbiological cultivation of Mycoplasma hyorhinis from cell cultures. 230 42

Blood gas and hematological responses to acute, mild Actinobacillus pleuropneumoniae infection of growing pigs was studied. Six pigs (average weight 10.1 kg) were experimentally infected intranasally with A. pleuropneumoniae serotype 5. Four pigs served as controls. Rectal temperatures and arterial blood for gas analysis and hematology were taken at 0, 8, 16, 24, 48 and 72 h postinfection. All infected pigs became febrile showing clinical signs typical of mild to moderate porcine pleuropneumonia; controls remained asymptomatic. Neutrophilia with bands and lymphopenia were observed only in infected pigs. Arterial partial pressures of O2 and CO2, and pH did not change in infected pigs. All pigs were killed after 72 h, and lungs were examined and cultured. Gross and microscopic lesions consistent with porcine pleuropneumonia were seen in 3/6 and 5/6 infected lungs, respectively. Control lungs were grossly normal with no histological evidence of pleuropneumonia. We conclude that in mild, acute porcine pleuropneumonia as established experimentally, a leukogram typical of acute inflammation and stress is seen; however, hypoxemia and alveolar hypoventilation are not features of this form of the disease.
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PMID:Blood gas stability and hematological changes in experimentally-induced acute porcine pleuropneumonia. 291 31

Cell extracts of the fermentative Mollicutes Acholeplasma laidlawii B-PG9, Acholeplasma morum S2, Mycoplasma capricolum 14, Mycoplasma gallisepticum S6, Mycoplasma pneumoniae FH, Mycoplasma hyopneumoniae J and M. genitalium G-37, and the non-fermentative Mycoplasma hominis PG-21, Mycoplasma hominis 1620 and Mycoplasma bovigenitalium PG-11 were examined for 39 cytoplasmic enzyme activities associated with the tricarboxylic acid (TCA) cycle, transamination, anaplerotic reactions and other enzyme activities at the pyruvate locus. Malate dehydrogenase (EC 4.2.1.2) was the only TCA-cycle-associated enzyme activity detected and it was found only in the eight Mycoplasma species. Aspartate aminotransferase (EC 2.6.1.1) activity was detected in all Mollicutes tested except M. gallisepticum S6. Malate synthetase (EC 4.1.3.2) activity, in the direction of malate formation, was found in the eight Mycoplasma species, but not in any of the Acholeplasma species. Phosphoenolpyruvate (PEP) carboxylase (EC 4.1.1.31) was detected in the direction of oxaloacetate (OAA) formation in both Acholeplasma species, but not in any of the Mycoplasma species. Pyruvate carboxylase (EC 6.4.1.1), pyruvate kinase (EC 2.7.1.40), pyruvate dehydrogenase (EC 1.2.4.1) and lactate dehydrogenase (EC 1.1.1.27) activities were found in all ten Mollicutes tested. No activities were detected in any of the ten Mollicutes for aspartase (EC 4.3.1.1), malic enzyme (EC 1.1.1.40), PEP carboxytransphosphorylase (EC 4.1.1.38), PEP carboxykinase (EC 4.1.1.32) or pyruvate orthophosphate dikinase (EC 2.7.9.1). In these TCA-cycle-deficient Mollicutes the pyruvate-OAA locus may be a point of linkage for the carbons of glycolysis, lipid synthesis, nucleic acid synthesis and certain amino acids. CO2 fixation appears obligatory in the Acholeplasma species and either CO2 fixation or malate synthesis appears obligatory in the Mycoplasma species.
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PMID:Presence of anaplerotic reactions and transamination, and the absence of the tricarboxylic acid cycle in mollicutes. 314 76

The fastidious growth requirements of mycoplasmas and ureaplasmas necessitated development of special growth media for them. The 1st mycoplasma was isolated from humans in 1937, and in 1954 a previously unknown mycoplasma was isolated from men with nonspecific urethritis. This organism, Ureaplasma urealyticum, is found most frequently in the genitourinary tract, followed by Mycoplasma hominus. M. fermentans and other mycoplasmas are isolated only rarely. Mycoplasmas and ureaplasmas have been implicated in pelvic inflammatory disease, puerperal infection, septic abortion, low birth weight, nongonococcal urethritis, and prostatisis, as well as spontaneous abortion and infertility, but there are no clinical symptoms pathognomonic of these infections. In spite of clinical suggestions of Mycoplasma or Ureaplasma infection, only a properly obtained specimen evaluatd with the use of selective cultures can lead to unequivocal diagnosis. The cultural characteristics and hence diagnostic procedures for Mycoplasma and Ureaplasma are quite different. Sterile calcium alginate swabs are used for obtaining urethral specimens, while sterile cotton swabs can be used for prostatic or vaginal secretions or semen. The swab should not touch antiseptic solutions, creams, or jellies, and the specimen must not dry out. Urine, if cultured, is best examined after centrifugattion at 600 g. Several different transport media are available. Optimally the specimen should be taken directly to the laboratory and subcultured on arrival. The metabolic activity of Mycoplasmas and Ureaplasmas is used in their detection. A phenol red indicator is added to the medium and the color change to or from yellow to pink indicates metabolic change. The growth medium is supplemented with glucose and phenol red for M. fermentans and arginine and phenol red for M. hominis. After color change is observed, the growth medium is subcultured on solid medium, which is obtained by adding .6-.8% Noble agar to the growth medium. Colonies develop best in an atmosphere of 95% N2 and 5% CO2 and reach approximately 200-300 mcm in diameter. They have a fried-egg appearance. Staining with Dienes stain, use of specific antisera, or incident light fluorescence microscopy are used for identification of the classic mycoplasmas. To isolate ureaplasmas, the specimen is transferred on arrival in the laboratory to urease color test broth U9C. During incubation the presence of Ureaplasma induces a rapid color change usually observable in 24-48 hours. A subculture should be done on fresh U9C broth media and on agar media once a color change is observed. Serologic tests for detection of antibodies to mycoplasmas and ureaplasmas are still in the developmental stage.
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PMID:Diagnosis of genital Mycoplasma and Ureaplasma infections. 402 Jul 82

The efficiency of aerobic incubation was compared with incubation under various oxygen and carbon dioxide conditions for the isolation and subcultivation of three strains of Mycoplasma hyorhinis from VERO-cell cultures and subcultivation of three laboratory strains. Under anaerobic conditions with a low oxidation-reduction potential (at or below -115 mV) as obtained in jars, with catalysts, containing mixtures of 5%-10% CO2 in H2, very poor or no growth of any of the six M. hyorhinis strains was observed. When traces of oxygen were present (that is, under conditions with higher oxidation-reduction potentials, e.g. when omitting the catalyst in the above gas mixtures or in 5% CO2 + 95% N2) isolation from cell cultures was successful in most tests, but subcultivation of these primary isolates was seldom possible under these semi-anaerobic conditions. However, in most cases these primary isolates could be subcultivated aerobically, although aerobic conditions were unsatisfactory for isolation in about half of the experiments. Isolation of M. hyorhinis was optimal in 5% O2 + 95% N2, under which condition the isolates could also always be subcultivated. Isolation failed occasionally when 5% O2 + 5% CO2 + 90% N2 was used, thus indicating that 5% CO2 was slightly inhibitory. 5% CO2 in air and 10% CO2 either in air, H2 or N2 were also inadequate for isolation from cell cultures. In contrast to the findings with these cell culture-adapted M. hyorhinis strains, the laboratory strains could be subcultivated easily under all conditions tested except those with an oxidation-reduction potential at or below -115 mV; 100% CO2 was inhibitory for all 6 strains. Our findings may partly explain why M. hyorhinis is often considered "non-cultivable" on artificial media once adapted to cell cultures. The findings emphasize the need to employ also a micro-aerophilic condition (5% O2 in 95% N2) in the examination of cell cultures for mycoplasma.
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PMID:Comparison of various atmospheric conditions for isolation and subcultivation of Mycoplasma hyorhinis from cell cultures. 641 22

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