UMLS:C0026936 - FACTA Search

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Query: UMLS:C0026936 (Mycoplasma)
14,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mycoplasma infection may lead to various pathologies in a broad range of hosts. It has been shown that Mycoplasma may trigger cell death in cell cultures; however, the mechanism remains unknown. In the present paper we show that Mycoplasma infection of different lymphocyte and epithelial tumour cell lines leads to the inhibition of proliferation, and increased cell death, accompanied by DNA fragmentation and the morphological features of apoptosis. We also showed that this infection leads to an increased sensitivity of cells to various inducers of apoptosis targeting different signalling pathways. Finally, we show that increased apoptosis is associated with overexpression of an endonuclease produced by Mycoplasma. This endonuclease is recovered in the nuclear fraction of host cells, introduces mostly DSB and is active at neutral pH in the presence of divalent cations. Activation of this endonuclease is connected with limited proteolysis, which may be reproduced in vitro by snake venom serine proteinase.
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PMID:Mycoplasma infection can sensitize host cells to apoptosis through contribution of apoptotic-like endonuclease(s). 989 30

Comparative sequence analysis has successfully predicted secondary structure and tertiary interactions in ribosomal and other RNAs. Experiments presented here ask whether the scope of comparative sequence-based predictions can be extended to specific interactions between proteins and RNA, using as a system the well-characterized C-terminal RNA binding domain of ribosomal protein L11 (L11-C76) and its 58 nucleotide binding region in 23S rRNA. The surface of L11-C76 alpha-helix 3 is known to contact RNA; position 69 in this helix is conserved as serine in most organisms but varies to asparagine (all plastids) or glutamine (Mycoplasma). RNA sequence substitutions unique to these groups of organisms occur at base pairs 1062/1076 or 1058/1080, respectively. The possibility that rRNA base pair substitutions compensate for variants in L11 alpha-helix 3 has been tested by measuring binding affinities between sets of protein and RNA sequence variants. Stability of the RNA tertiary structure, as measured by UV melting experiments, was unexpectedly affected by a 1062/1076 base pair substitution; additional mutations were required to restore a stably folded structure to this RNA. The results show that the asparagine variant of L11-C76 residue 69 has been compensated by substitution of a 1062/1076 base pair, and plausibly suggest a direct contact between the amino acid and base pair. For some of the protein and RNA mutations studied, changes in binding affinity probably reflect longer-range adjustments of the protein-RNA contact surface.
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PMID:Protein-RNA sequence covariation in a ribosomal protein-rRNA complex. 1009 Jul 50

A serine-rich membrane protein named LppS from Mycoplasma conjunctivae, the aetiological agent of infectious keratoconjunctivitis (IKC) of domestic and wild Caprinae, was characterized. Gene cloning and sequence analysis of the lppS gene revealed that it encoded a membrane protein precursor. The protein had a typical signal sequence and a signal peptidase II cleavage site followed by a cysteine residue representing a potential acylation site. The mature LppS protein had an apparent molecular mass of 150 kDa and was found in the detergent-associated fraction of Tween 20 extracted M. conjunctivae proteins. It possessed a serine-rich domain of 41 aa with 37 (90.2 %) serine residues. Twenty-seven of these serine residues were contiguous. The protein adhered to lamb joint synovial cells. Using an in vitro adhesion model, Fab fragments from IgG directed against recombinant purified LppS were shown to specifically inhibit adhesion of M. conjunctivae to lamb cells. Thus, LppS is likely to be an adhesin of M. conjunctivae that may play an important role in the pathogenesis of IKC.
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PMID:Characterization of LppS, an adhesin of Mycoplasma conjunctivae. 1257 92

HPr kinase/phosphatase (HPrK/P) modifies serine 46 of histidine-containing protein (HPr), the phosphorylation state of which is the control point of carbon catabolite repression in low G+C Gram-positive bacteria. To understand the structural mechanism by which HPrK/P carries out its dual, competing activities we determined the structure of full length HPrK/P from Mycoplasma pneumoniae (PD8 ID, 1KNX) to 2.5A resolution. The enzyme forms a homo-hexamer with each subunit containing two domains connected by a short loop. The C-terminal domain contains the well-described P-loop (Walker A box) ATP binding motif and takes a fold similar to phosphoenolpyruvate carboxykinase (PEPCK) from Escherichia coli as recently described in other HPrK/P structures. As expected, the C-terminal domain is very similar to the C-terminal fragment of Lactobacillus casei HPrK/P and the C-terminal domain of Staphylococcus xylosus HPrK/P; the N-terminal domain is very similar to the N-terminal domain of S.xylosus HPrK/P. Unexpectedly, the N-terminal domain resembles UDP-N-acetylmuramoyl-L-alanyl-D-glutamate:meso-diaminopimelate ligase (MurE), yet the function of this domain is unclear. We discuss these observations as well as the structural significance of mutations in the P-loop and HPrK/P family sequence motif.
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PMID:Crystal structure of HPr kinase/phosphatase from Mycoplasma pneumoniae. 1258 63

HPr kinase/phosphorylase (HPrK/P) is the key regulator of carbon metabolism in many Gram-positive bacteria. It phosphorylates/dephosphorylates the HPr protein of the bacterial phosphotransferase system on a regulatory serine residue in response to the nutrient status of the cell. In Mycoplasma pneumoniae, HPrK/P is one of the very few regulatory proteins encoded in the genome. The regulation of this enzyme by metabolites is unique among HPrK/P proteins studied so far: it is active as a kinase at low ATP concentrations, whereas the proteins from other bacteria need high ATP concentrations as an indicator of a good nutrient supply for kinase activity. We studied the interaction of M. pneumoniae HPrK/P with ATP, Fru1,6P2 and Pi by fluorescence spectroscopy. In agreement with the previously observed unique regulation, we found a very high affinity for ATP (K(d)=5.4 microM) compared with the HPrK/P proteins from other bacteria. The Kd for Fru1,6P2 was three orders of magnitude higher, which explains why Fru1,6P2 has only a weak regulatory effect on M. pneumoniae HPrK/P. Mutations of two important regions in the active site of HPrK/P, the nucleotide binding P-loop and the HPrK/P family signature sequence, had different effects. P-loop region mutations strongly affect ATP binding and thus all enzymatic functions, whereas the signature sequence motif seems to be important for the catalytic mechanism rather than for nucleotide binding.
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PMID:Mycoplasma pneumoniae HPr kinase/phosphorylase. 1471 4

Quinolone-resistant (QR) mutants of Mycoplasma bovirhinis strain PG43 (type strain) were generated by stepwise selection in increasing concentrations of enrofloxacin (ENR). An alteration was found in the quinolone resistance-determining region (QRDR) of the parC gene coding for the ParC subunit of topoisomerase IV from these mutants, but not in the gyrA, gyrB, and parE gene coding for the GyrA and GyrB subunits of DNA gyrase and the ParE subunit of topoisomerase IV. Similarly, such an alteration in QRDR of parC was found in the field isolates of M. bovirhinis, which possessed various levels of QR. The substitution of leucine (Leu) by serine (Ser) at position 80 of QRDR of ParC was observed in both QR-mutants and QR-isolates. This is the first report of QR based on a point mutation of the parC gene in M. bovirhinis.
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PMID:Characterization of a point mutation in the parC gene of Mycoplasma bovirhinis associated with fluoroquinolone resistance. 1522 51

Amino acid assimilation by different representatives of Mycoplasma genus has been investigated. All typical strains, involved in this research--Mycoplasma pneumoniae, M. capricolum, M. hominis, M. mycoides subsp. capri, M. fermentans, M. salivarium were able to assimilate asparagine, glutamine, threonine, histidine and tryptophan. Most of the investigated mycoplasmas were able to assimilate proline, phenylalanine, methionine, glutamate, lysine, serine, tyrosine, glycine, valine, isoleucine and alanine; assimilation of leucine and cysteine was observed rarely. Each of the investigated species of mycoplasmas are characterized by a specific spectrum of assimilated amino acids that can be used as additional characteristic for systematics of mollicutes.
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PMID:[Features of amino acid assimilation by representatives of the Mycoplasma genus]. 1545 19

Acyl carrier protein (ACP) synthase (AcpS) catalyzes the transfer of the 4'-phosphopantetheine moiety from coenzyme A (CoA) onto a serine residue of apo-ACP, resulting in the conversion of apo-ACP to the functional holo-ACP. The holo form of bacterial ACP plays an essential role in mediating the transfer of acyl fatty acid intermediates during the biosynthesis of fatty acids and phospholipids. AcpS is therefore an attractive target for therapeutic intervention. In this study, we have purified and characterized the AcpS enzymes from Escherichia coli, Streptococcus pneumoniae, and Mycoplasma pneumoniae, which exemplify gram-negative, gram-positive, and atypical bacteria, respectively. Our gel filtration column chromatography and cross-linking studies demonstrate that the AcpS enzyme from M. pneumoniae, like E. coli enzyme, exhibits a homodimeric structure, but the enzyme from S. pneumoniae exhibits a trimeric structure. Our biochemical studies show that the AcpS enzymes from M. pneumoniae and S. pneumoniae can utilize both short- and long-chain acyl CoA derivatives but prefer long-chain CoA derivatives as substrates. On the other hand, the AcpS enzyme from E. coli can utilize short-chain CoA derivatives but not the long-chain CoA derivatives tested. Finally, our biochemical studies show that M. pneumoniae AcpS is kinetically a very sluggish enzyme compared with those from E. coli and S. pneumoniae. Together, the results of these studies show that the AcpS enzymes from different bacterial species exhibit different native structures and substrate specificities with regard to the utilization of CoA and its derivatives. These findings suggest that AcpS from different microorganisms plays a different role in cellular physiology.
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PMID:Acyl carrier protein synthases from gram-negative, gram-positive, and atypical bacterial species: Biochemical and structural properties and physiological implications. 1678 83

Among the few regulatory events in the minimal bacterium Mycoplasma pneumoniae is the phosphorylation of the HPr phosphocarrier protein of the phosphotransferase system. In the presence of glycerol, HPr is phosphorylated in an ATP-dependent manner by the HPr kinase/phosphorylase. The role of the latter enzyme was studied by constructing a M. pneumoniae hprK mutant defective in HPr kinase/phosphorylase. This mutant strain no longer exhibited HPr kinase activity but, surprisingly, still had phosphatase activity toward serine-phosphorylated HPr (HPr(Ser-P)). An inspection of the genome sequence revealed the presence of a gene (prpC) encoding a presumptive protein serine/threonine phosphatase of the PP2C family. The phosphatase PrpC was purified and its biochemical activity in HPr(Ser-P) dephosphorylation demonstrated. Moreover, a prpC mutant strain was isolated and found to be impaired in HPr(Ser-P) dephosphorylation. Homologues of PrpC are present in many bacteria possessing HPr(Ser-P), suggesting that PrpC may play an important role in adjusting the cellular HPr phosphorylation state and thus controlling the diverse regulatory functions exerted by the different forms of HPr.
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PMID:Regulatory protein phosphorylation in Mycoplasma pneumoniae. A PP2C-type phosphatase serves to dephosphorylate HPr(Ser-P). 1685 67

A multilocus sequence typing (MLST) scheme was established and evaluated for Mycoplasma hyopneumoniae, the etiologic agent of enzootic pneumonia in swine with the aim of defining strains. Putative target genes were selected by genome sequence comparisons. Out of 12 housekeeping genes chosen and experimentally validated, the 7 genes efp, metG, pgiB, recA, adk, rpoB, and tpiA were finally used to establish the MLST scheme. Their usefulness was assessed individually and in combination using a set of well-defined field samples and strains of M. hyopneumoniae. A reduction to the three targets showing highest variation (adk, rpoB, and tpiA) was possible resulting in the same number of sequence types as using the seven targets. The established MLST approach was compared with the recently described typing method using the serine-rich repeat motif-encoding region of the p146 gene. There was coherence between the two methods, but MLST resulted in a slightly higher resolution. Farms recognized to be affected by enzootic pneumonia were always associated with a single M. hyopneumoniae clone, which in most cases differed from farm to farm. However, farms in close geographic or operational contact showed identical clones as defined by MLST typing. Population analysis showed that recombination in M. hyopneumoniae occurs and that strains are very diverse with only limited clonality observed. Elaborate classical MLST schemes using multiple targets for M. hyopneumoniae might therefore be of limited value. In contrast, MLST typing of M. hyopneumoniae using the three genes adk, rpoB, and tpiA seems to be sufficient for epidemiological investigations by direct amplification of target genes from lysate of clinical material without prior cultivation.
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PMID:Multilocus sequence typing (MLST) of Mycoplasma hyopneumoniae: a diverse pathogen with limited clonality. 1788 8

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