Evolutionarily conserved mechanism for membrane recognition from bacteria to mitochondria.

The mechanisms controlling membrane recognition by proteins with one hydrophobic stretch at their carboxyl terminus (tail anchor, TA) are poorly defined. The Escherichia coli TAs of ElaB and YqjD, which share sequential and structural similarity with the Saccharomyces cerevisiae TA of Fis1, were shown to localize to mitochondria. We show that YqjD and ElaB are directed by their TAs to bacterial cell poles. Fis1(TA) expressed in E. coli localizes like the endogenous TAs. The yeast and bacterial TAs are inserted in the E. coli inner membrane, and they all show affiliation to phosphatidic acid (PA), found in the membrane of the bacterial cell poles and of the yeast mitochondria. Our results suggest a mechanism for TA membrane recognition conserved from bacteria to mitochondria and raise the possibility that through their interaction with PA, and TAs play a role across prokaryotes and eukaryotes in controlling cell/organelle fate.