Arabinan polymers are major components of the cell wall in Mycobacterium tuberculosis and are involved in maintaining its structure, as well as playing a role in host-pathogen interactions. In particular, lipoarabinomannan (LAM) has multiple immunomodulatory effects. In the nonpathogenic species Mycobacterium smegmatis, EmbC has been identified as a key arabinosyltransferase involved in the incorporation of arabinose into LAM, and an embC mutant is viable but lacks LAM. In contrast, we demonstrate here that in M. tuberculosis, embC is an essential gene under normal growth conditions, suggesting a more crucial role for LAM in the pathogenic mycobacteria. M. tuberculosis EmbC has an activity similar to that of M. smegmatis EmbC, since we were able to complement an embC mutant of M. smegmatis with embC(Mtb), confirming that it encodes a functional arabinosyltransferase. In addition, we observed that the size of LAM produced in M. smegmatis was dependent on the level of expression of embC(Mtb). Northern analysis revealed that embC is expressed as part of a polycistronic message encompassing embC and three upstream genes. The promoter region for this transcript was identified and found to be up-regulated in stationary phase but down-regulated during hypoxia-induced nonreplicating persistence. In conclusion, we have identified one of the key genes involved in LAM biosynthesis in M. tuberculosis and confirmed its essential role in this species.