question archive 1d) Calculate the maximum [G6P] that can be achieved in a cell if [ATP] = 3
1d) Calculate the maximum [G6P] that can be achieved in a cell if [ATP] = 3
Subject:BiologyPrice: Bought3
1d) Calculate the maximum [G6P] that can be achieved in a cell if
[ATP] = 3.0 mM
[ADP] = 0.80 mM
[Pi] = 4.0 mM
Answer with 2 sig figs
1e) Pi + glucose → glucose-6-phosphate + H2O ΔGο´= +13.8 kJ/mol
What is the equilibrium constant for the reaction above when coupled to ATP hydrolysis?
Answer with 3 sig figs.
1f) A Ca2+-ATPase is responsible for the transport of calcium ions back into the SR. How many moles of calcium can be transported using the hydrolysis of ATP when [ATP] = 3 mM; [ADP] = 1 mM and [Pi] = 1 mM.
Answer with whole number.
Please show your work. I'm confused with how to do the calculations for these using the delta G=RTln(C2/C1)+ZF(electrochemical potential difference) equation
T=298, R=8.314 F=29485
Also please briefly explain the reasoning behind each answer.
