Lipid synthesis and metabolism in the plastid envelope

Plastid envelope membranes play a major role in the biosynthesis of glycerolipids. In addition, plastids are characterized by the occurrence of plastid‐specific membrane glycolipids (galactolipids, a sulfolipid). Plant lipid metabolism therefore has unique features, when compared to that of other eukaryotic organisms, such as animals and yeast. However, the glycerolipid biosynthetic pathway in chloroplasts is almost identical to that found in cyanobacteria, and reflects the prokaryotic origin of the chloroplast. Fatty acids generated in the plastid stroma are substrates for a whole set of enzymes involved in the synthesis of polar lipids of plastid membranes such as galactolipids, the sulfolipid, the phosphatidylglycerol. In addition, fatty acids are exported outside the plastid where they are used for extraplastidial polar lipid synthesis (phosphatidylcholine, phosphatidylethanolamine, etc.). Various desaturation steps leading to the formation of polyunsaturated fatty acids occur in various cell compartments, especially in chloroplasts, using fatty acids esterified to polar lipids as substrates. Furthermore, plant glycerolipids can be metabolized by a series of very active envelope enzymes, such as the galactolipid:galactolipid galactosyltransferase and the acyl‐galactolipid forming enzyme. The physiological significance of these enzymes is however largely unknown. One of the most active pathways involved in lipid metabolism and present in envelope membranes is the oxylipin pathway: polyunsaturated fatty acids that are released from polar lipids under various conditions (injury, pathogen attack) are converted to oxylipin. Thus, the plastid envelope membranes are also involved in the formation of signalling molecules.