A novel motif at the C-terminus of palmitoyltransferases is essential for SWF1 and PFA3 function in vivo

AYELEN GONZALEZ MONTORO; RODRIGO QUIROGA; JAVIER VALDEZ TAUBAS

The Biochemical Society of England

Lugar: Gran Bretaña; Año: 2009 vol. 419 p. 301 - 301

S-acylation (commonly known as palmitoylation) is a widespread post-translational modification that consists of the addition of a lipid molecule to cysteine residues of a protein through a thioester bond. This modification is predominantly mediated by a family of proteins referred to as PATs (palmitoyltransferases). Most PATs are polytopic membrane proteins, with four to six transmembrane domains, a conserved DHHC motif and variable C-and N-terminal regions, that are probably responsible for conferring localization and substrate specificity. There is very little additional information on the structure–function relationship of PATs. Swf1 and Pfa3 are yeast members of the DHHC family of proteins. Swf1 is responsible for the S-acylation of several transmembrane SNAREs (soluble N-ethylmaleimide-sensitive fusion protein-attachment protein receptors) and other integral membrane proteins. Pfa3 is required for the palmitoylation of Vac8, a protein involved in vacuolar fu