Imaging minimal bacteria at the nanoscale: a reliable and versatile process to perform Single Molecule Localization Microscopy in mycoplasmas

Abstract: Mycoplasmas are the smallest free-living organisms. These bacteria are important models for both fundamental and Synthetic Biology, owing to their highly reduced genomes. They are also relevant in the medical and veterinary fields, as they are pathogenic of both humans and most livestock species. Mycoplasma cells have minute sizes, often in the 300-800 nanometers range. As these dimensions are close to the diffraction limit of visible light, fluorescence imaging in mycoplasmas is often poorly informative. Rece… Show more

“…Alternatively, the lack of transformants with the first set of plasmids may have resulted from poor expression of the antibiotic resistance marker with the p438 promoter. However, given that the p438 promoter is functional in Mgal , this second hypothesis appears to be less plausible. Finally, five transformants were randomly selected for each plasmid and further characterized by single-primer PCR and sequencing to determine the insertion sites of the transposon (Figure S3, Table S3).…”

Genome Engineering in Mycoplasma gallisepticum Using Exogenous Recombination Systems

“…Alternatively, the lack of transformants with the first set of plasmids may have resulted from poor expression of the antibiotic resistance marker with the p438 promoter. However, given that the p438 promoter is functional in Mgal , this second hypothesis appears to be less plausible. Finally, five transformants were randomly selected for each plasmid and further characterized by single-primer PCR and sequencing to determine the insertion sites of the transposon (Figure S3, Table S3).…”

Genome Engineering in Mycoplasma gallisepticum Using Exogenous Recombination Systems