Construction of mini-Tn4001 transposon vector for Mycoplasma gallisepticum

The detailed genetic analysis of mycoplasmas has long been hampered by the lack of appropriate tools for genetic manipulation. In this study, the transposon vector, mini-Tn4001tetM, was constructed containing the tnp gene, encoding a transposase gene in Staphylococcus aureus, two copies of the IS256 inverted repeat sequence (inner and outer) and the tetM gene, from the Enterococcus faecalis Tn916 transposon, conferring resistance to tetracycline. This vector was electro-transformed into Mycoplasma gallisepticum (MG). The recombinant cells were screened by tetracycline selection. The results indicated that the transposon vector could replicate in MG strain R by successive passages, indicating that MG is a potential vector for expressing protective antigens of other pathogens.     

Construction and use of derivatives of transposon Tn4001 that function in Mycoplasma pulmonis and Mycoplasma arthritidis

Previous attempts to introduce transposon Tn4001 into Mycoplasma pulmonis and Mycoplasma arthritidis have not been successful, possibly due to functional failure of the transposon's gentamicin resistance determinant. Tn4001C and Tn4001T were constructed, respectively, by insertion of a chloramphenicol acetyltransferase gene and the tetM tetracycline resistance determinant into Tn4001. Both Tn4001C and Tn4001T transposed in M. pulmonis, and Tn4001T transposed in M. arthritidis. The incorporation of a Tn4001T derivative that contained lacZ into either Mycoplasma species resulted in transformants with readily detectable LacZ activity. Tn4001T may be of general utility for use as a mycoplasma cloning vehicle because tetM functions in all species of Mycoplasma examined thus far.     

Transformation of Mycoplasma gallisepticum with Tn916, Tn4001, and integrative plasmid vectors.

Mycoplasma gallisepticum causes respiratory disease in avian species, but little is known about its mechanism(s) of pathogenesis. These studies were undertaken in order to develop genetic systems for analysis of potential virulence factors. M. gallisepticum was transformed with plasmids containing one of the gram-positive transposons Tn916 or Tn4001, which inserted randomly into the mycoplasmal chromosome. Plasmids containing cloned chromosomal DNA were also constructed and tested for integration into regions of DNA homology derived either from chromosomal fragments or from the gentamicin resistance marker from Tn4001. These studies demonstrate that M. gallisepticum is amenable to transformation with both transposons and integrative vectors.     

Construction and analysis of a modified Tn4001 conferring chloramphenicol resistance in Mycoplasma pneumoniae

The Staphylococcus aureus transposon Tn4001 and derivatives thereof have been transformed successfully in several mycoplasma species. In order to expand the versatility of Tn4001 for other genetic manipulations and for use in mycoplasma species resistant to gentamicin (Gm), chloramphenicol acetyltransferase (Cat) from S. aureus was evaluated as a selectable marker. The cat gene was cloned in both orientations into a modified Tn4001 and transformed into Mycoplasma pneumoniae, conferring resistance to Cm and Gm. Replacement of the gene for GmR in Tn4001 with cat likewise conferred CmR when transformed into M. pneumoniae. The minimum inhibitory concentration to Cm in transformants with cat derivatives of Tn4001 was 300-500 microg/ml, and Cat enzyme activity was demonstrated by using a fluorescent substrate.     

Sugar transport in Mycoplasma gallisepticum

Mycoplasma gallisepticum cells were found to contain two different sugar transport systems, one for d-glucose and alpha-methyl-d-glucoside (alpha-MG) and the other for d-mannose and d-fructose. Both systems were noninducible, stereospecific, dependent on temperature and pH, and sensitive to sulfhydryl-blocking reagents. The rate of sugar uptake depended on its external concentration, obeying Michaelis-Menten kinetics. The sugar accumulated in the cells against a concentration gradient, and an energy requirement for accumulation was demonstrated with alpha-MG. Both transport systems thus meet the criteria of active transport. The exit of alpha-MG from the cells, like its entry, depended on temperature and was accelerated by energy supplied by the oxidizable d-mannose. d-Glucose accelerated alpha-MG exit, apparently by an exchange reaction. A method for measuring the intercellular space and intracellular free-water volume of Mycoplasma was devised, and several of its applications are described.     

Membrane Proteins of Mycoplasma gallisepticum

Mycoplasma gallisepticum membrane proteins were separated by two-dimensional gel electrophoresis. We found no evidence for the presence of a membrane glycoprotein.     

Transposon mutagenesis of Mycoplasma gallisepticum

There are few systems available for studying the genetics of the important avian respiratory pathogen, Mycoplasma gallisepticum. These techniques are needed to develop a mechanism to study the molecular pathogenesis of M. gallisepticum. Tn916 has the ability to transpose into the M. gallisepticum genome by both transformation and conjugation. In this study, PEG-mediated transformation was employed for the transfer of Tn916 into M. gallisepticum and create a transposon mutant library. Transformants were obtained at a frequency of approximately 5 x 10(-8) per recipient CFU. A total of 424 MG/Tn916 mutants were constructed and sequence data from the transposon junctions of 71 mutants was obtained and used to identify transposon insertion sites. Insertions were found throughout the genome in nearly all of the major gene categories, making this the first extensive characterization of a transposon mutant library of M. gallisepticum. Transposon stability was also examined, and it was determined that for two mutants the element was stably maintained in vivo in the absence of selective pressure.     

Histochemical Localization of Phosphatases in Mycoplasma gallisepticum

Histochemical studies of adenosine triphosphatase and acid phosphatase activity were performed on Mycoplasma gallisepticum. The adenosine triphosphatase activity appears to be localized in the bleb and infrableb regions exclusively and is associated with the cell membrane; acid phosphatase activity is localized in the infrableb region and does not appear to be membrane-associated. These findings are consistent with data from biochemical studies of Mycoplasma cell fractions but, unlike them, reveal that adenosine triphosphatase activity is restricted to a particular part of the cell membrane.     

Physical map of Mycoplasma gallisepticum.

Physical chromosomal maps of two Mycoplasma gallisepticum strains, R and ATCC 19610, were constructed by using field inversion gel electrophoresis. To assist in the ordering of chromosomal fragments and the construction of the chromosomal maps, the gram-positive transposon Tn4001 was modified to serve as a mobile restriction site. The total sizes of the M. gallisepticum R and ATCC 19610 genomes were estimated to be 1,037 and 998 kb, respectively. The restriction enzyme locations for EagI and SmaI were determined along with several transposon insertion sites. The two strain maps were similar except for three small deletions and one additional EagI site in strain ATCC 19610.     

Ultrastructure and Ribosomes of Mycoplasma gallisepticum.

Maniloff, Jack (Yale University, New Haven, Conn.), Harold J. Morowitz, and Russell J. Barrnett. Ultrastructure and ribosomes of Mycoplasma gallisepticum. J. Bacteriol. 90:193-204. 1965.-The ultrastructure of Mycoplasma gallisepticum strain A5969 has been studied by electron microscopy (thin-section and negative staining), ultracentrifugation, and chemical analysis. The list of ultrastructure is: membrane, nuclear material, ribosomes, ribosomal structures, infra-bleb region, and blebs. The nuclear material, containing the cell's deoxyribonucleic acid, appears as an unbounded region containing 30-A fibrils. The ribosomes have a diameter of about 140 A, a ribonucleic acid-protein ratio of 0.68, and an uncorrected sedimentation coefficient of 70.2S. The 70.2S particle can be broken into 49.3S and 32.4S particles. Ribosomal arrays were found filling the intracytoplasmic space between the nuclear material and the membrane. Under certain conditions, these arrays formed cylindrical arrangements of ribosomes. The infra-bleb region is composed of a granular material, although little internal structure could be found. The bleb was highly structured.     

Sodium and proton transport in Mycoplasma gallisepticum.

When washed cells of Mycoplasma gallisepticum were incubated at 37 degrees C in 250 mM 22NaCl, the intracellular Na+ increased, and the K+ decreased. The addition of glucose to these Na+-loaded cells caused Na+ efflux and K+ uptake (both ions moving against concentration gradients). This effect of glucose was blocked by the ATPase inhibitor dicyclohexylcarbodiimide, which prevents the generation of a proton motive force in these cells. In additional experiments, Na+ extrusion was studied by diluting the 22Na+-loaded cells into Na+-free media and following the loss of 22Na+ from the cells. Glucose stimulated 22Na+ extrusion in such cells by a dicyclohexylcarbodiimide-sensitive mechanism. Proton movement was studied by measuring the pH gradient across the cell membrane with the 9-aminoacridine fluorescence technique. Glucose addition to cells preincubated with cations other than Na+ resulted in cell alkalinization (which was prevented by dicyclohexylcarbodiimide). This observation is consistent with the operation of a proton-extruding ATPase. When glucose was added to Na+-loaded cells and diluted into Na+-free media, intracellular acidification was observed, followed several minutes later by a dicyclohexylcarbodiimide-sensitive alkalinization process. The initial acidification was probably due to the operation of an Na+-H+ antiport, since Na+ exit was occurring simultaneously with H+ entry. When Na+-loaded cells were diluted into Na+-containing media, the subsequent addition of glucose resulted in a weak acidification, presumably due to H+ entry in exchange for Na+ (driven by the ATPase) plus a continuous passive influx of Na+. All of the data presented are consistent with the combined operation of an ATP-driven proton pump and an Na+ -H+ exchange reaction.     

Cell volume regulation in Mycoplasma gallisepticum.

Mycoplasma gallisepticum cells incubated in 250 mM NaCl solutions in the absence of glucose showed a progressive fall in intracellular ATP concentration over a period of 2 to 3 h. When the ATP level fell below 40 microM the cell began to swell and become progressively permeable to [14C]inulin and leak intracellular protein and nucleotides. The addition of nondiffusable substances such as MgSO4 or disaccharides prevented swelling, suggesting that NaCl (and water) entry was due to Gibbs-Donnan forces. The addition of glucose after the initiation of cell swelling increased intracellular ATP, induced cell shrinkage, and prevented the release of intracellular components. The ATPase inhibitor dicyclohexylcarbodiimide, which collapsed the chemical and electrical components of the proton motive force, caused rapid cell swelling in the presence of glucose (and high intracellular ATP levels). Extracellular impermeable solutes such as MgSO4 and disaccharides prevented swelling of dicyclohexylcarbodiimide-treated cells incubated in NaCl. It was postulated that Na+ that diffused into the cell was extruded by an electrogenic Na+-H+ exchange (antiport) energized by the proton motive force established by the dicyclohexylcarbodiimide-sensitive H+-ATPase.     

Isolation and characterization of transposon Tn4001-generated, cytadherence-deficient transformants of Mycoplasma pneumoniae and Mycoplasma genitalium

Abstract Cytadherence and subsequent parasitism of host cells by the human pathogens, Mycoplasma pneumoniae and Mycoplasma genitalium , are mediated by adhesins and adherence-related accessory proteins. In this report we demonstrate the use of transposon Tn 4001 to generate Tn-induced transformants displaying cytadherence-deficient characteristics. Mycoplasma pneumoniae Tn-generated transformant, designated 8R, lacked the high-molecular weight adherence-accessory proteins HMW1/4 and was deficient in hemadsorption and cytadherence capabilities. In transformant 8R, Tn 4001 was not localized in or near the hmw 1 gene or in the upstream adhesin (p30/hmw3) locus, suggesting an alternate site associated with the regulation of hmw 1 gene expression. Sequence analysis identified the transposon insertion site at the crl locus previously reported, although the protein characteristics of transformant 8R differed from the earlier described transformants. The M. genitalium Tn-transformant, designated G26, was also defective in hemadsorption and cytadherence. However, transformant G26 synthesized adhesins P140 and P32 suggesting that Tn 4001 transposed into a new gene or site previously unlinked to cytadherence, namely ORF MG032. This study demonstrates the utility of Tn 4001 mutagenesis for both M. pneumoniae and M. genitalium which, in the latter case, has special relevance in light of the recent complete characterization of its continuous total genomic sequence.     

Deoxyribonucleic Acid Synthesis in Synchronously Growing Mycoplasma gallisepticum

Early log-phase cells of Mycoplasma gallisepticum A5969 were synchronized by holding in Eagle minimal essential medium (MEM) for 2 h. When transferred out of MEM into tryptose medium, the cells exhibited synchronous growth. Deoxyribonucleic acid (DNA) synthesis proceeded continuously during this growth but stopped during the period of cell division. One round of DNA replication was observed per cell doubling, and a unique region of DNA was found to be permanently bound to the membrane.     

Adherence of Mycoplasma gallisepticum to glass.

Attachment of washed Mycoplasma gallisepticum cells to glass was quantified with organisms in which membrane lipids were labelled with 3H. Siliconization of the test tubes decreased attachment, while centrifugation increased it. Attachment increased with temperature, decreased with increasing pH and ionic strength of the attachment mixture, but was unaffected by Ca2+, Mg2+ and EDTA. This suggests that ionic bonds, but not salt bridges, participate in the attachment process. Glycophorin, the major receptor responsible for M. gallisepticum attachment to erythrocytes, partially inhibited the attachment of the organisms to glass. However, bovine serum albumin also decreased attachment. Extensive pretreatment of the organisms with trypsin decreased their ability to attach to glass by about 35 to 40%. Trypsin and pronase failed to detach the organisms already bound to glass, suggesting that external mycoplasma cell components, other than membrane proteins, also participate in attachment of the organisms to glass.     

Experimental Mycoplasma gallisepticum infections in captive-reared wild turkeys

The effects of Mycoplasma gallisepticum (MG) infections on egg production, fertility, and hatchability were studied in captive-reared wild turkeys (Meleagris gallopavo). Three groups of adult birds, each consisting of four hens and two toms, were exposed to MG by the respiratory route at the beginning of their breeding season. Fourteen control birds received sterile growth medium. Although no mortality of infected or control birds occurred, egg production during the first breeding season after infection was reduced. The mean number of eggs/hen/day produced by infected groups the first breeding season postexposure (PE) was significantly lower than the control value. The mean number of eggs produced daily by the same hens 1 yr later was unaffected by MG infection. The percentage of fertile eggs produced by infected groups was slightly reduced in both the first and second breeding seasons PE. Hatchability of fertile eggs from infected hens was significantly lower than eggs from control hens. Productivity may be impaired if MG infections occur in free-ranging wild turkey populations.