Suppose the concetration of glcose inside a cell is 0.600mM and the cell is suspended in a glucose solution of 0.0300mM Part a: What would be the free energy change, in kj/mol, for the transport of glocse from the medium into the cell? Assume t=37 degrees C Part b: what would be the free enery change, in KJ/mol, for the transport of glcose from the medium to the cell if the intracellular and extracellular concentrations were 7.00mM and 15.0mM, respectively Part C: If the prcess described in part A was copled to hydrolysis, how many moles of would to be hydrolysed, per mold of glucose transported, in order to make process in part A favorable? (use -30.5 KJ/mol is the standard free energy change for ATP hydrolysis Part D: If the process describe in part b was coupled to hydroysis, how many moles of would have to be hydrolyzed per mole of glucose transported, in order to make prcess in part B favorable? (use -30.5 KJ/mol for the standard free energy change for ATP hydrolysis)
Problem 2: Suppose the concetration of glcose inside a cell is 0.600mM and the cell is suspended in a glucose solution of 0.0300mM
Part a: What would be the free energy change, in kj/mol, for the transport of glocse from the medium into the cell? Assume t=37 degrees C
Part b: what would be the free enery change, in KJ/mol, for the transport of glcose from the medium to the cell if the intracellular and extracellular concentrations were 7.00mM and 15.0mM, respectively
Part C: If the prcess described in part A was copled to hydrolysis, how many moles of would to be hydrolysed, per mold of glucose transported, in order to make process in part A favorable? (use -30.5 KJ/mol is the standard free energy change for ATP hydrolysis
Part D: If the process describe in part b was coupled to hydroysis, how many moles of would have to be hydrolyzed per mole of glucose transported, in order to make prcess in part B favorable? (use -30.5 KJ/mol for the standard free energy change for ATP hydrolysis)
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