Evaluation of the Simple Sequence Repeats to Work as a Phase Variation with the Neisseria meningitidis Genome

Abstract

Background: The most crucial mechanism of genetic variation in N. meningitidis is the slipped strand mispairing, this mechanism generates Phase variation using simple sequence repeat (SSR) and is commonly used by the N. meningitidis to escape the immune system despite its function in eradicating the pathogenic and commensal bacteria. Some of simple sequence repeats (SSRs) that located within the genome works as phase variation while other SSRs have no role in generating phase variation mechanisms. Therefore,
 Aim: the main goal of the current in silico study was to detect the probability of SSR to enroll with phase variation for the entire N. meningitidis genome.
 Methods: Different criteria were used to judge SSR as it works in phase variation and these criteria were taken from the current literature. These criteria involve the Z score value of the synonymous shuffling model and Markov model of SSR, the position of SSR in the gene or the promoter, instability and polymorphism of SSR in genomes of different strains, and the length of SSR.
 Results: The positive Z score value of SSR, SSR being variable in length among genomes of different strains and SSR location in 3 prime end of a gene or in the promoter indicates that the SSR generates phase variation in a particular gene.
 Conclusion: 67 out of 327 putative phase variable genes located on the N. meningitidis genome were determined to fit these criteria. We assume, therefore, that SSR in these genes may be connected with phase variation mechanism. We recommend that experimental evidence should be generated to confirm these findings.