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Unlock your guides2.7 Facilitated Diffusion
3 min read•june 18, 2024
Tejas Bhartiya
Haseung Jun
Tejas Bhartiya
Haseung Jun
When and Why Does Facilitated Diffusion Occur?
When molecules cannot move easily enough through the , occurs. Molecules cannot pass through the of the plasma membrane easily when particles are either charged or polar.
Facilitated diffusion is a form of which does NOT require energy. Passive transport occurs when molecules go down the .
A concentration gradient is when particles or solutes move from a highly concentrated area of particles to a less concentrated area of particles. This process is aided by proteins located on the plasma membrane () such as : and .
Channel Proteins
Channel proteins are laid throughout the membrane to provide a Hydrophilic passage through for the molecules to avoid the Hydrophobic core (Hydrophobic means to avoid polar substances such as water. Hence the terms hydro-water and Phobic think of phobia, fear of something. While Hydrophilic is the opposite and attracts water). An example of a channel protein is which allow water (polar H20) to diffuse through the membrane. Aquaporins are essential for plant cells, red blood cells, etc.
Nerve and muscle cells have gated ion channel proteins to enable the flow of charged ions such as sodium and potassium present in the of . These charged ions, like Na+ and K-, need channel proteins in order to move through the membrane. This creates a , and it helps with the action potential (you'll learn more about this later. If you're confused, don't worry too much. Just remember this concept is used in nerve cells). If a signal such as an electrical signal is activated these channels open their gate to transmit these signals through cells.
Carrier Proteins
Carrier proteins alter their shape to allow the flow of molecules through the concentration gradient of the membrane similarly to an . Their rate of transport is slower than that of channel proteins. Carrier proteins provide an easy way for hydrophilic molecules to pass through the concentration gradient.
Active Transport
is used when the substance is moving in the opposite direction than its natural tendency would take it. The substance is transported to a region of higher concentration from lower concentration. Because it's against nature (like riding a bike uphill), it requires the use of ATP.
This is well demonstrated with the . It takes out three sodium ions into the cell and brings in two potassium ions. Because both ions are moving against nature, ATP is needed. This is .
But there is something called . In this transport system, something is actively transported by using energy from another substance going through the membrane through simple diffusion. This of it as a mom with a stroller going through a door. Let's say the baby 👶 going through the door is active transport. The baby alone going through the door would need a lot of energy, it can't go on its own. But the mom, on the other hand, was already going through the door through simple diffusion. So the mom's "momentum" is used to push the baby through the door as well.
⚡ Watch AP Biology - Facilitated Diffusion
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