Título
Molecular ruler mechanism and interfacial catalysis of the integral membrane acyltransferase PatA
11627/579011627/5790
Autor
Anso, Itxaso
Basso, Luis G. M.
Wang, Lei
Marina, Alberto
Páez Pérez, Edgar Daniel
Jager, Christian
Gavotto, Floriane
Tersa, Montse
Perrone, Sebastian
Contreras, F-Xabier
Prandi, Jacques
Gilleron, Martine
Linster, Carole L.
Corzana, Francisco
Lowary, Todd L.
Trastoy, Beatriz
Guerin, Marcelo E.
Resumen
"Glycolipids are prominent components of bacterial membranes that play critical roles not only in maintaining the structural integrity of the cell but also in modulating host-pathogen interactions. PatA is an essential acyltransferase involved in the biosynthesis of phosphatidyl-myo-inositol mannosides (PIMs), key structural elements and virulence factors of Mycobacterium tuberculosis. We demonstrate by electron spin resonance spectroscopy and surface plasmon resonance that PatA is an integral membrane acyltransferase tightly anchored to anionic lipid bilayers, using a two-helix structural motif and electrostatic interactions. PatA dictates the acyl chain composition of the glycolipid by using an acyl chain selectivity “ruler.” We established this by a combination of structural biology, enzymatic activity, and binding measurements on chemically synthesized nonhydrolyzable acyl–coenzyme A (CoA) derivatives. We propose an interfacial catalytic mechanism that allows PatA to acylate hydrophobic PIMs anchored in the inner membrane of mycobacteria, through the use of water-soluble acyl-CoA donors."
Fecha de publicación
2021Tipo de publicación
articleDOI
https://doi.org/10.1126/sciadv.abj4565Área de conocimiento
CIENCIAS TECNOLÓGICASColecciones
Editor
AAASPalabras clave
Bacillus-calmette guerinPhosphatidylinositol mannosides
Mannosyltransferase pima
Enzymatic acylation
Structural basis
Lipid-bilayer
Biosynthesis
Mycobacteria
Recognition
Dynamics