Background: The integrity of cell wall structure is highly significant for the in vivo survival for mycobacteria. However, the mechanisms underlying the biosynthesis of mycobacterial cell wall remain poorly understood. aceE encodes the E1 component of pyruvate dehydrogenase (PDH)complex. This study aimed to know the functional role of aceE gene in cell wall biosynthesis in M. smegmatis.
Results: We observed that the colony morphology of aceE-deficient mutants(aceE-mut)was quite different from the wild-type(WT) strain during the transposon library screening of M.smegmatis, smaller and smoother on the solid culture medium. Notably, the aceE-mut lost its ability of growing aggregately and biofilm forming, which are two very important features of mycobacteria.The morphological changes of the aceE-mut strain were further confirmed by electron microscopy that presented shorter, smoother and thinner images in contrast withWT strain.Additionally, the analysis of mycolic acid(MA)using LC-MS indicated deficiency of alpha-MA and epoxy-MA in aceE-mut strain whereas complementation of the aceE-mut with a wild-type aceEgene restored the composition of MA.
Conclusions: Overall, this study indicates that aceE gene plays a significant role in the mycolic acid synthesis and affects the colony morphology and biofilm formation of M.smegmatis.