Research article

Short tandem repeat sequences in the Mycoplasma genitalium genome and their use in a multilocus genotyping system

Liang Ma¹ , Stephanie Taylor¹ , Jørgen S Jensen² , Leann Myers³ , Rebecca Lillis¹ and David H Martin¹

¹Section of Infectious Diseases, Department of Medicine, Louisiana State University Health Sciences Center, New Orleans, LA 70112, USA

²Mycoplasma Laboratory, Statens Serum Institut, DK-2300 Copenhagen S, Denmark

³Department of Biostatistics, Tulane University, New Orleans, LA 70112, USA

author email corresponding author email

BMC Microbiology 2008, 8:130doi:10.1186/1471-2180-8-130

Published:	29 July 2008

Abstract

Background

Several methods have been reported for strain typing of Mycoplasma genitalium. The value of these methods has never been comparatively assessed. The aims of this study were: 1) to identify new potential genetic markers based on an analysis of short tandem repeat (STR) sequences in the published M. genitalium genome sequence; 2) to apply previously and newly identified markers to a panel of clinical strains in order to determine the optimal combination for an efficient multi-locus genotyping system; 3) to further confirm sexual transmission of M. genitalium using the newly developed system.

Results

We performed a comprehensive analysis of STRs in the genome of the M. genitalium type strain G37 and identified 18 loci containing STRs. In addition to one previously studied locus, MG309, we chose two others, MG307 and MG338, for further study. Based on an analysis of 74 unrelated patient specimens from New Orleans and Scandinavia, the discriminatory indices (DIs) for these three markers were 0.9153, 0.7381 and 0.8730, respectively. Two other previously described markers, including single nucleotide polymorphisms (SNPs) in the rRNA genes (rRNA-SNPs) and SNPs in the MG191 gene (MG191-SNPs) were found to have DIs of 0.5820 and 0.9392, respectively. A combination of MG309-STRs and MG191-SNPs yielded almost perfect discrimination (DI = 0.9894). An additional finding was that the rRNA-SNPs distribution pattern differed significantly between Scandinavia and New Orleans. Finally we applied multi-locus typing to further confirm sexual transmission using specimens from 74 unrelated patients and 31 concurrently infected couples. Analysis of multi-locus genotype profiles using the five variable loci described above revealed 27 of the couples had concordant genotype profiles compared to only four examples of concordance among the 74 unrelated randomly selected patients.

Conclusion

We propose that a combination of the MG309-STRs and MG191-SNPs is efficient for general epidemiological studies and addition of MG307-STRs and MG338-STRs is potentially useful for sexual network studies of M. genitalium infection. The multi-locus typing analysis of 74 unrelated M. genitalium-infected individuals and 31 infected couples adds to the evidence that M. genitalium is sexually transmitted.