Palcekova, ZuzanaAngala, Shiva K.Belardinelli, Juan ManuelEskandarian, Haig A.Joe, MajuBrunton, RichardRithner, ChristopherJones, VictoriaNigou, JeromeLowary, Todd L.Gilleron, MartineMcNeil, MichaelJackson, Mary2019-07-242019-07-242019-07-242019-06-2810.1074/jbc.RA119.008585https://infoscience.epfl.ch/handle/20.500.14299/159358WOS:000474445600022Similar to other prokaryotes, mycobacteria decorate their major cell envelope glycans with minor covalent substituents whose biological significance remains largely unknown. We report on the discovery of a mycobacterial enzyme, named here SucT, that adds succinyl groups to the arabinan domains of both arabinogalactan (AG) and lipoarabinomannan (LAM). Disruption of the SucT-encoding gene in Mycobacterium smegmatis abolished AG and LAM succinylation and altered the hydrophobicity and rigidity of the cell envelope of the bacilli without significantly altering AG and LAM biosynthesis. The changes in the cell surface properties of the mutant were consistent with earlier reports of transposon mutants of the closely related species Mycobacterium marinum and Mycobacterium avium harboring insertions in the orthologous gene whose ability to microaggregate and form biofilms were altered. Our findings point to an important role of SucT-mediated AG and LAM succinylation in modulating the cell surface properties of mycobacteria.Biochemistry & Molecular Biologymycobacteriamycobacterium smegmatispolysaccharidetuberculosiscell surfacearabinogalactanlipoarabinomannansuccinylationgalactosamine substituentbiosynthesisimpactidentificationacetylationlipomannanapoptosistransporttext::journal::journal article::research article