Biochemistry Equations for Exam 1
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V
_{0}
=V
_{max}
[S]/ Km + [S]
Michaelis-Menton equation
pH= Pka + log ([A-]/[HA])
Henderson Hasselbach Equation
Theta= [PL]/ [PL]+[P]
Fractional Saturation
Delta G= delta G not prime +RT ln Keq
Delta G as a function of the standard free energy change equation
Delta G not prime= -RT ln Keq
Standard Free Energy at Equilibruim
1/V
_{0}
=Km/V
_{max}
. 1/[S] + 1/V
max
Lineweaver-Burke equation
1/v
_{0}
= (alpha Km)/V
_{max }
. 1/[S] + alpha'/ Vmax
Lineweaver-Burke equation for Mixed inhibitor
1/V
_{0}
= Km/V
_{max}
. 1/ [S] + alpha'/V
max
Lineweaver-Burke equation for an uncompetitive inhibitor
K
_{cat}
/Km
Turnover number
1/V
_{0}
= (alpha Km)/V
_{max}
. 1/[S] + 1/V
_{max}
Lineweaver-Burke equation for competitive inhibitor
Theta= pO
_{2 }
/ pO
_{2}
+ p
_{50}
Fraction Saturation (partial pressure)
Theta= L / L+ K
_{d}
Fraction Saturation (ligand binding)
Delta G= Delta H- T. Delta S
Free Energy Change
1/2 mass *velocity
^{2}
Kinetic Energy Equation
E= S + H+ G
Total Energy
Kd= [P] [L]/ [PL]
Kd equation
alpha/alpha' *Km
Kmapp=
-alpha'/alpha*1/Km
-1/Kmapp=
alpha'/Vmax
1/Vmaxapp=
Vmax/[E
_{t}
]
Kcat=
Card Set Information
Author:
arikell
ID:
302999
Filename:
Biochemistry Equations for Exam 1
Updated:
2015-05-25 00:45:40
Tags:
Biochemistry
Folders:
Description:
Exam 1 equations (must memorize
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