Cotransport
What is co-transportation?
Here, another molecule helps the target molecule to remove a gap or gap in the barrier. This process is inactive, it does not require energy. One molecule, due to its concentration, can combine with another molecule already in motion. Free ride, so to speak.
The co-transport moves 2 molecules simultaneously across the membrane in the same direction. One molecule releases energy and reduces its concentration, while the other uses molecules which release energy and increase its concentration. Help for example! Good with it! :)
Molecular traffic through memory:
1. Hydrocarbon molecules (hydrocarbons and oxygen) can pass easily because they can dissolve in the lipid layer.
2. Small (uncharged) polar molecule (water and carbon dioxide).
3. Large (uncharged) polar molecules do not contain P (sugar).
ons. Ions do not easily change to P (H +, Na +, CL).
Transport protein:
1. When molecules move in only one direction.
2. Two different novelty of harmony go in one direction.
3. Antiport two molecules that go in opposite directions.
These transport proteins work in the following ways: they provide tunnels for the flow of matter, bind and transport physically, and they are specific to the substances they move.
Cotransport
Cotransport
What is co-transportation? 3
Here, another molecule helps the target molecule to fill the gap in the subsidy or barrier. This process is inactive, it does not require energy. One molecule can combine with another molecule that is on its way to achieving its concentration. Free ride to talk.
Cotransport transports 2 molecules simultaneously across the membrane in the same direction. One molecule releases energy and decreases its concentration, while the other molecule uses that energy and increases its concentration. Help for example! Good with it! :)
Cotransport
Cotransport
Molecular traffic through memory:
1. Hydrocarbon molecules (hydrocarbons and oxygen) can pass easily because they can dissolve in the lipid layer.
2. Small (uncharged) polar molecule p (water and carbon dioxide).
3. Large (uncharged) polar molecules do not contain P (sugar).
4. Pions (H +, Na +, Cl) do not form easily.
Transport protein:
1. When molecules move in only one direction.
2. Symport Two different molecules move in one direction.
3. Antiports Two molecules move in opposite directions.
These transport proteins work in the following ways: they provide tunnels for the flow of matter, bind substances and move physically, and are specific to the substances they move.
Simultaneous and connected transport of one substance across a membrane, with simultaneous transport of another substance across the same membrane in the same direction.
Bringing sodium from high concentration to low concentration can provide the energy needed to move the second generation to the concentration of grants.
A supporter is a type of ion pump that moves more than one type of molecule through the same reservoir at about the same time.
