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English: 3D animation of a prokaryotic cell that shows all the elements that compose it. Made by David Marín under supervision of Pablo Geara Joyed ( Faculty of medicine, University of Seville ). Français : Animation 3D d'une cellule procaryote qui montre tous les éléments qui le composent.
English: A diagram of a typical prokaryotic bacteria cell. Date: ... cleared the hollow parts of plasma membrane. 00:21, 13 October 2015: 910 × 1,020 (178 KB)
Re EncycloPetey: "The yellow is the cell wall" - no it's not, the yellow is clearly labeled as the capsule, the cell wall is labeled as the light green layer below the thick yellow capsule layer (this is the second time you've repeated this mistake). So it's not fine; either your claims are wrong or the diagram is mislabeled, and either way ...
a basic diagram on the elements conforming a prokaryote cell. in this case a bacteria: Date: 26 April 2006: Source: i did the diagram myself using adobe illustrator , as source for the information i used this websites , ,, and : Author: Mariana Ruiz LadyofHats: Permission (Reusing this file) public domain: Other versions: multiple languages
English: A diagram of a typical prokaryotic cell. This diagram, made in Adobe Illustrator, is an improved version of a similar diagram, Prokaryote cell diagram.svg, which was also made by LadyofHats. Besides general appearance changes, this version adds plasmids and pili, and notes that DNA is circular.
Diagram of a prokaryotic cell, a bacterium with a flagellum. A prokaryote (/ p r oʊ ˈ k ær i oʊ t,-ə t /; less commonly spelled procaryote) [1] is a single-celled organism whose cell lacks a nucleus and other membrane-bound organelles. [2]
Voting period is over. Please don't add any new votes. Voting period ends on 5 Nov 2015 at 11:36:04 (UTC). Original – A diagram of the Prokaryotic Bacteria cell, showing its parts, which is the Pilus, Cytoplasm, Ribosomes, Nucleoid (DNA), Plasma membrane, Cell wall, Capsule, and the Flagellum.
A cell's ability to vitrify in the absence of metabolic activity, as in dormant periods, may be beneficial as a defense strategy. A solid glass cytoplasm would freeze subcellular structures in place, preventing damage, while allowing the transmission of tiny proteins and metabolites, helping to kickstart growth upon the cell's revival from ...