MBOAT


The MBOAT family of membrane proteins is a family of various acyltransferase enzymes. All family members contain multiple transmembrane domains and most carry two conserved residues, a conserved histidine embedded in a hydrophobic stretch of residues and an asparagine or histidine within a more hydrophilic region some 30-50 residues upstream.
MBOAT enzymes catalyze the transfer of an acyl group from an acyl-coenzyme or accessory protein to one of several different substrates. The family is found from bacteria to eukaryotes.
The family may be grouped into three categories, according to function:
  1. enzymes involved in neutral lipid biosynthesis;
  2. enzymes involved in protein/peptide acylation;
  3. enzymes involved in phospholipid re-modelling.

    Structure

The structure for one MBOAT protein, DltB from Streptococcus thermophilus, has been solved. DltB performs D-alanylation of cell-wall teichoic acid. It contains a ring of 11 transmembrane helices surrounding a tunnel that goes through the biological membrane. The tunnel connects to a partner, DltC, which carries the D-alanine to the conserved histidine residue of DltB MBOAT located at the bottom of the funnel. A computational model of human ghrelin O-acyltransferase revealed a transmembrane channel that facilitates octanoylation of the peptide hormone ghrelin. DltB and GOAT share structural similarities in their homologous regions, suggesting a common core fold for MBOAT family members.

Human proteins with this domain