Abstract
Mycoplasma haemofelis is a pathogenic feline hemoplasma. Despite its importance, little is known about its metabolic pathways or mechanism of pathogenicity due to it being uncultivatable. The recently sequenced M. haemofelis str. Langford 1 genome was analysed and compared to those of other available hemoplasma genomes.Analysis showed that in hemoplasmas genes involved in carbohydrate metabolism are limited to enzymes of the glycolytic pathway, with glucose appearing to be the sole energy source. The majority of the pentose phosphate pathway enzymes that catalyze the de novo synthesis of ribonucleotides were absent, as were cell division protein FtsZ and chaperonins GroEL/ES. Uncharacterized protein paralogs containing putative surface expression motifs, comprised 62% of M. haemofelis and 19% of Mycoplasma suis genome coverage respectively, the majority of which were present in a small number of unstructured islands. Limited mass spectrometry and immunoblot data matched a number of characterized proteins and uncharacterized paralogs, confirming their expression and immunogenicity in vivo.These data have allowed further characterization of these important pathogens, including their limited metabolic capabilities, which may contribute to their uncultivatable status. A number of immunogenic proteins, and a potential mechanism for host immune system evasion, have been identified.
Highlights
The hemotropic mycoplasmas are a group of bacteria that can induce hemolytic anemia in a wide variety of mammals [1]
Langford 1 genome are shown in Figure 1, and these features are compared to other available hemoplasma genomes
Both hemoplasmas contained single copies of the 16S, 23S and 5S ribosomal RNA genes, which were located in a single rRNA operon in M. haemofelis but not M. suis
Summary
The hemotropic mycoplasmas (hemoplasmas) are a group of bacteria that can induce hemolytic anemia in a wide variety of mammals [1]. The feline hemoplasma, Mycoplasma haemofelis, and the porcine hemoplasma, Mycoplasma suis were reclassified as members of the genus Mycoplasma within the Mollicutes class following 16S ribosomal RNA gene phylogenetic analysis [1]. The whole genome sequence of M. haemofelis str. Langford 1 was published [2]. This low-passage strain has been shown to induce hemolytic anemia in immunocompetent specific pathogen free (SPF)-derived cats [3,4]. The annotated genome sequences of two strains of M. suis and a further strain of M. haemofelis have been published [5,6]
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