Archaeplastida
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- Early Plant Life
- Phylogenomics Provides New Insights Into Gains and Losses of Selenoproteins Among Archaeplastida
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- Primary Endosymbiosis and the Evolution of Light and Oxygen Sensing in Photosynthetic Eukaryotes
- Evolutionary Trends in the Mitochondrial Genome of Archaeplastida: How Does the GC Bias Affect the Transition from Water to Land?
- Downloaded from the NCBI Genome Database
- Supergroup: SAR Clade
- Untangling the Early Diversification of Eukaryotes: a Phylogenomic Study of the Evolutionary Origins of Centrohelida, Haptophyta
- Evolution and Systematics of Plants (Archaeplastida) – Ordering Without Orders
- Kingdom‑Wide Comparison Reveals the Evolution of Diurnal Gene Expression in Archaeplastida
- Chapter 29: Plant Diversity I – How Plants Colonized Land
- Phylogenomics Provides New Insights Into Gains and Losses of Selenoproteins Among Archaeplastida
- Genome Structure and Metabolic Features in the Red Seaweed Chondrus Crispus Shed Light on Evolution of the Archaeplastida
- Figure 28.2 ■ Excavata 5 Μm Diplomonads Excavata Parabasalids 4 Supergroups
- The Glaucophyta: the Blue-Green Plants in a Nutshell
- The Endosymbiotic Origin, Diversification and Fate of Plastids
- Freshwater Origin of Primary Plastids COMMENTARY Louise A
- Contrasting Patterns in the Evolution of the Rab Gtpase Familyin Archaeplastida