in the cupboard under the dick
Glucose hitches a ride with sodium through a symporter protein on the cell membrane. This process is known as secondary active transport, where the energy stored in the sodium gradient is used to transport glucose into the cell against its concentration gradient.
Lactose enters the cell through a process called secondary active transport, which utilizes the sodium gradient established by the Na+/K+ ATPase pump. This pump expels sodium ions (Na+) from the cell, creating a lower concentration of sodium inside compared to the outside. As sodium ions flow back into the cell down their concentration gradient, they couple with lactose via the sodium-glucose co-transporter (SGLT) or similar transporters, allowing lactose to enter the cell against its concentration gradient. This process effectively leverages the energy stored in the sodium gradient to facilitate lactose uptake.
If you buy sodium metal, it's packed in either oil or argon. That's how it's stored.
Cells can move sodium out of the cell using a protein called the sodium-potassium pump. This pump actively transports sodium ions out of the cell while bringing potassium ions into the cell, maintaining the proper balance of ions inside and outside the cell. This process requires energy in the form of ATP.
The mitochondrion of the cell.
when exposed to air or moisture, sodium will catch fire. to prevent that, sodium is stored in kerosene oil
no
Glucose hitches a ride with sodium through a symporter protein on the cell membrane. This process is known as secondary active transport, where the energy stored in the sodium gradient is used to transport glucose into the cell against its concentration gradient.
Lactose enters the cell through a process called secondary active transport, which utilizes the sodium gradient established by the Na+/K+ ATPase pump. This pump expels sodium ions (Na+) from the cell, creating a lower concentration of sodium inside compared to the outside. As sodium ions flow back into the cell down their concentration gradient, they couple with lactose via the sodium-glucose co-transporter (SGLT) or similar transporters, allowing lactose to enter the cell against its concentration gradient. This process effectively leverages the energy stored in the sodium gradient to facilitate lactose uptake.
If you buy sodium metal, it's packed in either oil or argon. That's how it's stored.
NaKATPase transports 3 K ions into the cell and takes only two Na ions out of it.
It is not necessary to store sodium chloride in an incubator. For laboratory use dried NaCl must be stored in an exsiccator.
because its stupid
Solid sodium forms. Sodium is reduced.
The cell could increase the activity of sodium-potassium pumps on the cell membrane to actively transport more sodium into the cell against its concentration gradient. Alternatively, the cell could increase the expression of sodium channels on the cell membrane to allow passive diffusion of sodium into the cell down its electrochemical gradient.
The cell that is stored with instructions is chromosomes. Hoped this helped :).
The cell that is stored with instructions is chromosomes. Hoped this helped :).