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?
Answers: 3
Chemistry, 22.06.2019 01:00, baileysosmart
The diagram shows the positions of the sun, moon and earth during spring tides, when the high tides are at their highest and low tides at their lowest. what is it about these positions that causes these high and low tides?
Answers: 3
Chemistry, 23.06.2019 00:10, graceception
In as 1°, 2°, 3°, or 4°. be to . : °b: °c: °d: ° : °b: °c: °d: ° : °b: °c: °d: °e: °f: °g: °h: ° : °b: °c: °d: °e: °f: °g: °h: °i: °
Answers: 3
In the red blood cell, glucose is transported into the cell against its concentration gradient.
Mathematics, 28.09.2021 02:00
History, 28.09.2021 02:00
Chemistry, 28.09.2021 02:00
Mathematics, 28.09.2021 02:00