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What term describes the structure of a cell plasma membrane because of a oily nature and embedded proteins?
fluid mosaic
What term describes structure of a cell plasma membrane because it it and oily nature embedded proteins?
fluid mosaic
What term describes the structures of the ell proteins of a plasma membrane because of its oily nature and embedded proteins?
The term that describes the structures of the plasma membrane, including the ell proteins, due to its oily nature and embedded proteins, is "fluid mosaic model." This model highlights the fluidity of the lipid bilayer and the mosaic of various proteins that float within or on the membrane, allowing for dynamic interactions and functions essential for cellular activities.
The structure of a cell plasma membrane because of its oily nature and embedded proteins'?
A soap bubble with inclusions.
What term describes the structure of cell plasma because of its oily nature and embedded proteins?
fluid mosaic
What term describes the structure of a cell membrane because of its oily nature and embedded proteins?
fluid mosaic
What term describes structure of a cell plasma membrane because it it and oily nature embedded proteins?
fluid mosaic
What term describes the structure of a cell plasma membrane because of it and oily nature and embedded proteins?
fluid mosaic
What term describes the structure of a cell plasma membrane because of a oily nature and embedded proteins?
fluid mosaic
What term describes structures of a cell plasma membrane because of its oily nature and embedded proteins?
fluid mosaic
What term describes the structure of a cell plasma membrane because it's oily nature and embedded proteins?
fluid mosaic
What term describes the structure of a cell plasma membrane because of its oily nature embedded proteins?
fluid mosaic
The structure of a cell plasma membrane because of its oily nature and embedded proteins'?
A soap bubble with inclusions.
What term describes the structure of cell plasma because of its oily nature and embedded proteins?
fluid mosaic
What term describes the structure of a cell plasma membrane because of its oily nature and embedded nature?
fluid mosaic
Why must transport proteins be peripheral proteins?
Transport proteins must be peripheral proteins because they need to be able to move within the cell membrane to facilitate the transport of molecules across the membrane. Peripheral proteins are not embedded within the lipid bilayer of the membrane, allowing them to move more freely and interact with molecules on both sides of the membrane. This mobility is essential for transport proteins to effectively transport molecules across the cell membrane.
Why is the cell membrane explained in terms of a fluid moasic model?
Because the membrane is a phospholipid bilayer with cholesterol that stabilizes the membrane. Proteins, receptors, pores, channels, carriers and self-markers embedded in the layer are like islands in a fatty ocean that move about.
