concentration of glucose in the urine decreases.
NADP+, ADP, and glucose
It is apparent that glucose levels are present in the blood system. It is also present in the urine, whereas it does not complete flush from blood and traces appear.
Large molecules, such as glucose, are not able to pass through the cell membrane. Therefore proteins are needed to transport them across.
Active uptake, which requires energy and protein carriers in the membranes.
concentration of glucose in the urine decreases.
There are glucose carriers in the plasma membrane
NADP+, ADP, and glucose
A cell speed up its intake of glucose from the environment by having more protein carriers. This will facilitate diffusion of the glucose into the cell.
It is apparent that glucose levels are present in the blood system. It is also present in the urine, whereas it does not complete flush from blood and traces appear.
Large molecules, such as glucose, are not able to pass through the cell membrane. Therefore proteins are needed to transport them across.
The light reactions provide the energy carriers used in the Calvin cycle
active uptake, which requires energy and protein carriers in membranes
Active uptake, which requires energy and protein carriers in the membranes.
The light reactions provide the energy carriers used in the Calvin cycle
Glucose moves across the cell membrane through facilitated diffusion. This type of transport uses protein carriers to assist glucose molecules across the cell membrane from an area of high concentration to an area of low concentration.
Kid carriers are called Kid carriers.