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The answer is proteins.
The mitochondria has a membrane with many convolutions because it increases the surface area for ATP synthesis
Cell membranes have many convolutions because they increasee the surface area to volume ratio, thus increasing the diffusion rate.
While there are many different types of organelles, the term 'transport vesicles' applies. They are mainly invoved with the export of Cell[ular] products.
Many cell organelles resemble sponges.
The answer is proteins.
The mitochondria has a membrane with many convolutions because it increases the surface area for ATP synthesis
Cell membranes have many convolutions because they increasee the surface area to volume ratio, thus increasing the diffusion rate.
Cell membranes have many convolutions because they increasee the surface area to volume ratio, thus increasing the diffusion rate.
They are called organelles. There are many different types of organelles, each of which serve their own function and aid the cell in staying alive! Hope this helps you. (:
Many cell organelles resemble sponges.
While there are many different types of organelles, the term 'transport vesicles' applies. They are mainly invoved with the export of Cell[ular] products.
there are many different types of organelles within cells, such as the RER, nucleus, ribosomes, golgi apparatus etc...these are all organelles and they are located WITHIN the cell's cytoplasm.
Many cell organelles resemble sponges.
Small cells are better able to transport material more efficiently. Many convolutions increase the surface area of the cell, thus allowing for more interactions between the cell and its environment. A large cell has greater volume to its surface area and if this is too large, it will not get enough protein and oxygen.
Eukaryotic cells may contain several other types of organelles, which may include mitochondria, chloroplasts, the endoplasmic reticulum, the Golgi apparatus, and lysosomes. Each of these organelles performs a specific function critical to the cell's survival.
The answer is proteins.