Chemistry, 10.03.2020 09:06, 22savage2017

In the red blood cell, glucose is transported into the cell against its concentration gradient.
The energy for this transport is supplied by the hydrolysis of ATP:

ATP + H2O → ADP + Pi at 298K

Assume the overall transport reaction is:

ATP + H2O + 2glucose(out) → ADP + Pi + 2glucose(in).

(a) At 37 °C, under conditions where [ATP], [ADP], and [Pi] are each held constant at 100 mM by cell metabolism, what is the maximum value of [glucose(in)]/[glucose(out)]? You can assume the activity coefficients of all species are 1.
(b) In an actual cell, the glucose inside the cell may exhibit non-ideal behavior. How would this affect the activity coefficient? Would this increase or decrease the maximum concentration gradient obtainable?

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In the red blood cell, glucose is transported into the cell against its concentration gradient.