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The cytoskeleton is the non membrane bound organelle that supports cell shape. There are three types of rods, in order of increasing size that make up the cytoskeleton; the microfilaments, intermediate filaments, and microtubules. Non of these are membrane bound.
Ribosomes doesn't has no membrane it make their proteins.
mitochondrion
Both the ER and the Golgi App make the membrane bound transport vescivles.
It should be the vacuole, because all cells, even the red-blood cells and xylem cells have vacuoles. Basically my definition of "universal cell organelle" means an organelle which is present in all cells.
The cytoskeleton is the non membrane bound organelle that supports cell shape. There are three types of rods, in order of increasing size that make up the cytoskeleton; the microfilaments, intermediate filaments, and microtubules. Non of these are membrane bound.
Ribosomes doesn't has no membrane it make their proteins.
No, the chloroplasts do.
Basement membrane organelle
mitochondrion
mitochondrion
Both the ER and the Golgi App make the membrane bound transport vescivles.
It should be the vacuole, because all cells, even the red-blood cells and xylem cells have vacuoles. Basically my definition of "universal cell organelle" means an organelle which is present in all cells.
Cell membrane
The organelle is the E.R.'s (Endoplasmic Reticulum) Its membrane of the E.R. is involved in membrane biogenesis. As the R.E.R (Rough Endoplasmic Reticulum) is involved in protein synthesis and the S.E.R (Smooth Endoplasmic Reticulum) is involved in lipid formation. Lipids and proteins are used to make the plasma membrane of the cell. Hence E.R. is involved in membrane biogenesis. Hope this helped you. :D
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.