This work reports the results of analyses of three complete mycoplasma genomes, a pathogenic (7448) and a nonpathogenic (J) strain of the swine pathogen Mycoplasma hyopneumoniae and a strain of the avian pathogen Mycoplasma synoviae; the genome sizes of the three strains were 920,079 bp, 897,405 bp, and 799,476 bp, respectively. These genomes were compared with other sequenced mycoplasma genomes reported in the literature to examine several aspects of mycoplasma evolution. Strain-specific regions, including integrative and conjugal elements, and genome rearrangements and alterations in adhesin sequences were observed in the M. hyopneumoniae strains, and all of these were potentially related to pathogenicity. Genomic comparisons
Pathogenic non-O1/non-O139 Vibrio cholerae strains can cause sporadic outbreaks of cholera worldwide. In this study, multilocus sequence typing (MLST) of seven housekeeping genes was applied to 55 non-O1/non-O139 isolates from clinical and environmental sources. Data from five published O1 isolates and 17 genomes were also included, giving a total of 77 isolates available for analysis. There were 66 sequence types (STs), with the majority being unique, and only three clonal complexes. The V. cholerae strains can be divided into four subpopulations with evidence of recombination among the subpopulations. Subpopulations I and III contained predominantly clinical strains. PCR screening for virulence factors including Vibrio pathogenicity island (VPI), cholera toxin prophage (CTXΦ), type III secretion system (T3SS), and enterotoxin genes (rtxA and sto/stn) showed that combinations of these factors were present in the clinical isolates with 85.7% having rtxA, 51.4% T3SS, 31.4% VPI, 31.4% sto/stn (NAG-ST) and 11.4% CTXΦ. These factors were also present in environmental isolates but at a lower frequency. Five strains previously mis-identified as V. cholerae serogroups O114 to O117 were also analysed and formed a separate population with V. mimicus. The MLST scheme developed in this study provides a framework to identify sporadic cholera isolates by genetic identity.
Altered cell adhesion is causally involved in tumor progression, and the identification of novel adhesion molecules altered in tumors is crucial for our understanding of tumor biology and for the development of new prognostic and therapeutic strategies. Here, we provide evidence for the epigenetic downregulation in breast tumors of the A Desintegrin And Metalloprotease domain 23 gene (ADAM 23), a member of a new family of surface molecules with roles in cell-cell adhesion and/or cellmatrix interactions. We examined the mRNA expression and methylation status of the 5 0 upstream region of the ADAM23 gene in different breast tumor cell lines as well as in primary breast tumors. We found ADAM23 5 0 hypermethylation in eight out of 12 (66.7%) tumor cell lines and in nine out of 13 (69.2%) primary tumors. Promoter hypermethylation was strongly associated with reductions in both mRNA and protein expression, with a threshold of 40-60% of modified CpG dinucleotides being required for the complete silencing of ADAM23 mRNA expression. Treatment of MCF-7 and SKBR-3 cell lines with 5 0 -Aza-2 0 -deoxycytidine led to a reactivation of ADAM23 mRNA expression and a marked decrease in the methylation level. It is worth noting that primary breast tumors with a more advanced grade showed a higher degree of methylation, suggesting that the adhesion molecule ADAM23 may be downregulated during the progression of breast cancer.
We resolved the relationships between 2 pandemic clones of Vibrio cholerae. Using 26 housekeeping genes, we showed that the US Gulf clone, the Australian clone, and 3 El Tor strains isolated before the seventh pandemic were related to the seventh pandemic clone. The sixth pandemic clone was well separated from them.
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