Photosynthesis in eukaryotes occurs in the plastid, an organelle that is derived from a single cyanobacterial primary endosymbiosis in the common ancestor of the supergroup Plantae (or Archaeplastida) that includes green, red, and glaucophyte algae and plants. However a variety of other phytoplankton such as the chlorophyll c-containing diatoms, dinoflagellates, and haptophytes contain a red alga-derived plastid that traces its origin to secondary or tertiary (eukaryote engulfs eukaryote) endosymbiosis. The hypothesis of Plantae monophyly has only recently been substantiated, however the extent and role of endosymbiotic and horizontal gene transfer (EGT and HGT) in algal genome evolution still remain to be fully understood. What is becoming clear from analysis of complete genome data is that algal gene complements can no longer be considered essentially eukaryotic in provenance; i.e., with the expected addition of several hundred cyanobacterial genes derived from EGT and a similar number derived from the mitochondrial ancestor. For example, we now know that foreign cells such as Chlamydiae and other prokaryotes have made significant contributions to plastid functions in Plantae. Perhaps more surprising is the recent finding of extensive bacterium-derived HGT in the nuclear genome of the unicellular red alga Porphyridium purpureum that does not relate to plastid functions. These non-endosymbiont gene transfers not only shaped the evolutionary history of Plantae but also were propagated via secondary endosymbiosis to a multitude of other phytoplankton. Here we discuss the idea that Plantae (in particular red algae) are one of the major players in eukaryote genome evolution by virtue of their ability to act as sinks and sources of foreign genes through HGT and endosymbiosis, respectively. This hypothesis recognizes the often under-appreciated Rhodophyta as major sources of genetic novelty among photosynthetic eukaryotes.

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red algaderived plastid secondary or tertiary eukaryote engulfs eukaryote bacteriumderived hgt cyanobacterial novelty underappreciated rhodophyta endosymbiosis primary plantae algal gene complements eukaryotes red alga porphyridium endosymbiotic

Huan eQiu,Hwan Su eYoon,Debashish eBhattacharya,.Algal endosymbionts as vectors of horizontal gene transfer in photosynthetic eukaryotes. 4 (),.

Huan eQiu,Hwan Su eYoon,Debashish eBhattacharya,"Algal endosymbionts as vectors of horizontal gene transfer in photosynthetic eukaryotes" 4

Huan eQiu,Hwan Su eYoon,Debashish eBhattacharya,"Algal endosymbionts as vectors of horizontal gene transfer in photosynthetic eukaryotes"