front 1 dynamic continuity | back 1 membranes of eukaryotic cells |
front 2 Symbiosis | back 2 close association between two species |
front 3 endosymbiosis | back 3 one partner lives within the other |
front 4 Eukaryotic cells features | back 4 limited in the ways they use & transfer carbon + energy, and the dynamic skeleton that allows movement |
front 5 Eukaryotes way of obtaining nutrients | back 5 engulfing food particles & packaging them inside vesicles to later transport to cytoplasm to mitochondria, and single-celled eukaryotes are able to feed on bacteria or other eukaryotic cells. |
front 6 chloroplasts originated | back 6 from endosymbiosis, chloroplasts are a product of cyanobacterium and engulf the cell. |
front 7 mitochondria originated | back 7 from genetic similarities between proteobacteria DNA sequence and mitochondria DNA sequence |
front 8 Archaea relation to eukaryotes | back 8 Archaea (from prokaryotic group) is closely related to eukaryotes compared to bacteria |
front 9 1st hypothesis of origin of eukaryotic cells | back 9 primitive eukaryote descended (evolved) from archaeal ancestors |
front 10 2nd hypothesis | back 10 archaeon engulfed a bacterium (symbiotic association between archaeon and proteobacterium) |