Metabolic Symbiosis and the Birth of the Plant Kingdom.
Résumé
Eukaryotic cells are composed of a variety of membrane bound organelles that are thought to derive from symbiotic associations involving bacteria, archaea or other eukaryotes. In addition to acquiring the plastid, all archaeplastida and some of their endosymbiotic derivatives can be distinguished from other organisms by the fact that they accumulate starch, a semi-crystalline storage polysaccharide distantly related to glycogen and never found elsewhere. We now provide the first evidence for the existence of starch in a particular species of single cell diazotrophic cyanobacterium. We provide evidence for the existence in the eukaryotic host cell at the time of primary endosymbiosis of an UDP-glucose-based pathway similar to that characterized in amoebas. Because of the monophyletic origin of plants, we can define the genetic make-up of the archaeplastida ancestor with respect to storage polysaccharide metabolism. The most likely enzyme partitioning scenario between the plastid's ancestor and its eukaryotic host immediately suggests the precise nature of the ancient metabolic symbiotic relationship. The latter consisted in the export of ADP-glucose from the cyanobiont in exchange for the import of reduced nitrogen from the host. We further speculate that the monophyletic origin of plastids may lie in an organism with close relatedness to present day group V cyanobacteria.