This is the time when the bacterium has established itself efficiently in the host and it is possible that the bacterium then permits itself to undergo genetic substitutions to evade the host immune response. The detailed analysis of codon usage for synonymous changes MCC950 cost observed in both mce1 and mce4 operons revealed that codons of amino acids were changed to the next preferred codon which would alter the expression of proteins. Our observation of more codon bias in mce4 operon that may lead to less expression of proteins further supports the possibility that such diversity facilitates better survival of M. tuberculosis inside the host’s body. Our results further reveal that more than 25% of clinical isolates
have SNPs in yrbE4A and lprN genes of mce4 operon. The lprN gene of mce4 operon codes for lipoprotein precursor [20]. The lipoproteins of M. tuberculosis are known to be effectively antigenic in nature [21]. Thus, high
polymorphism in lprN gene (both synonymous and nonsynonymous) further supports our hypothesis that such polymorphisms favour intracellular survival of the pathogen. Drug resistance itself makes the organism in a better position to survive within the hostile intracellular environment. But DS isolates being drug susceptible do not have selleck this advantage. Therefore antigenic variation is a tool utilized by DS clinical isolates. For example, the function of PPE proteins is unknown. However several observations and results support that many are cell surface associated and recognized by the host immune system.
The possibility of high antigenic variation associated with these highly antigenic PE and the PPE family proteins have also been reported [22]. The PGRS member Rv1759 is a fibronectin-binding protein of relative aminophylline molecular mass 55,000 Da [23] that elicits a variable antibody response, indicating either that individuals mount different immune responses or that this PGRS protein may vary between strains of M. tuberculosis. Bioinformatics analysis have indicated that LprN is also a cell surface associated protein. Therefore it is possible that SNP observed in this gene could be translated into antigenic variation in the LprN protein to facilitate the intracellular survival of mycobacteria. In contrast, the mce1 operon is required for the entry of the pathogen inside the host cell [24] and hence, remains less polymorphic. However, the yrbE1A gene is revealed to be highly polymorphic in mce1 operon. Since, YrbE1A has been predicted to be a transmembrane protein [20], so the observed polymorphism in its gene may influence activity of the protein. From the TSA HDAC nmr computational analysis, we could infer that the results obtained on the basis of structural details (PolyPhen) and sequence details (PMut) were in tune with each other. Both the programs have predicted that the SNP observed in mce1A gene is having the highest pathological relevance.