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B. Sc. Biochemistry & Molecular Biology

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#amino acid
(1)  
#buffer
(1)  
#effector
(1)  
#enzyme
(4)  
#equilibrium
(1)  
#function
(1)  
#kinetic
(4)  
#kinetic mechanism
(3)  
#mechanism
(3)  
#pH
(1)  
#protein
(1)  
#stability
(1)  
#transition state
(1)  

#equation
  • Apply Henderson-Hasselbalch equation to calculate the properties of a buffer and the net charge of amino acids and proteins. [BIOC 2300]
  • Given a pH-dependent kinetic mechanism, derive an initial velocity equation and sketch the plot of kinetic constants as a function of pH. [BIOC 4701]
  • Given the kinetic mechanism (with or without inhibition), derive an initial velocity equation using either the steady-state assumption or the rapid equilibrium approach. [multiple courses]
  • Apply Michaelis-Menten equation to calculate Vmax and Km in absence/presence of effectors. [BIOC 2300]
  • Given the kinetic parameters for an enzyme-catalyzed reaction and the corresponding nonenzymatic reaction, calculate the efficiency, rate enhancement, proficiency, and extent of transition state stabilization. [BIOC 4701]
  • Derive the steady-state velocity equation for a given kinetic mechanism for a multisubstrate enzyme using the King-Altman method. [BIOC 4701]

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