H+ ions would not flow. This answer is correct I just checked!
A protein channel is a transport protein that helps larger molecules, that would otherwise not be able to defuse throw the membrane of a cell, to move in or out of the cell depending on the concentration gradient.
The carrier protein that transports hydrogen ions across thylakoid membranes and produce ATP acts as ion channel and an enzyme. The Krebs Cycle is a series of enzyme.
Carrier proteins.
Facilitated diffusion is passive transport as no energy is used, and a protein channel is all that's required. After that it is simple diffusion down a concentration gradient. Anything with the word diffusion in it is passive transport. Diffusion is just the principle of passive transport.
Hyperproteinuria is the term for an abnormal high concentration of protein in urine.
A protein channel is a transport protein that helps larger molecules, that would otherwise not be able to defuse throw the membrane of a cell, to move in or out of the cell depending on the concentration gradient.
The substances are moving from areas of high concentration to areas of low concentration with the help of a protein channel.
H+ ions would not flow out of the mitochondrion
Facilitated diffusion is the movement a substance from high concentration to low concentration across a membrane through a transporter protein or channel
The carrier protein that transports hydrogen ions across thylakoid membranes and produce ATP acts as ion channel and an enzyme. The Krebs Cycle is a series of enzyme.
ATP synthase; to add a phospate to ADP
Carrier proteins.
No. Hydrogen is a chemical element.
Facilitated diffusion is passive transport as no energy is used, and a protein channel is all that's required. After that it is simple diffusion down a concentration gradient. Anything with the word diffusion in it is passive transport. Diffusion is just the principle of passive transport.
Hyperproteinuria is the term for an abnormal high concentration of protein in urine.
Through diffusion, or facilitated diffusion via protein channels, or active transport via protein channel pumps (active transport goes against the concentration gradient) Most cells in our bodies use active transport to maintain electrolytic balances.
Protein channels help move particles across the cell membrane