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Biochemical Engineering Exam 1
Examination Instructions
The exam is open notes/open books/open resources
...
Your solutions should adhere to the following:
FINAL ANSWERS SHOULD BE BOXED FOR PROBLEM 1 and PROBLEM 2
SOLUTIONS/RESPONSES SHOULD BE ENCODED HERE IN MS WORD
...
Problem 1
Data on the enzymatic degradation of dichlorophenol at different concentrations are given in the
following table:
So (mg/L)
Rate (mg Phenol/L-hour)
30
2
...
8
90
5
...
4
150
8
...
1
250
4
...
5
You can assume that a substrate-inhibited kinetics facilitates this process and can be modelled
by:
π=
ππ
πΎ
π
(1 + ππ ) (1 + πΎ )
ππΌ
What are the values (with correct units) for Vm, Km, and KSI?
Solution:
1
ππ
1
π ππ‘π
0
...
0166
0
...
0083
0
...
005
0
...
0033
0
...
2632
0
...
1351
0
...
1408
0
...
4
Biochemical Engineering Exam 1
1/S VS 1/RATE
0
...
5
0
...
4
0
...
3
0
...
2
0
...
1754
0
...
1351
0
...
1408
0
1
2
3
6
7
8
π¦= ππ₯+ π
π¦ = 8
...
151139
π΄π‘ π₯ = 0 ; π = ππ
π¦ = 8
...
151139
1
= (8
...
151139
ππ
1
ππ
= 0
...
6164
π΄π‘ π¦ = 0 ; π₯ =
ππ πβππππ
πΏββ
β1
πΎπ
π¦ = 8
...
151139
0 = (8
...
151139
πΎπ
(β0
...
203743
) (πΎπ )
πΎπ
β0
...
203743
=
β0
...
151139
πΎπ = 54
...
2795
) (πΎππΌ )
πΏ
πΏ
(150)2
ππ
ππ
= (54
...
2795 πΏ
πΎππΌ = 414
...
The following data were obtained for enzymatic oxidation of phenylacetic acid at different
concentration of propionic acid:
S (mM)
V (mM/L-hour), I = 0
V (mM/L-hour), I = 1
mM
V (mM/L-hour), I = 2
mM
0
...
0
0
...
40
1
...
1
0
...
9
1
...
60
2
...
4
0
...
4
1
...
00
2
...
2
0
...
9
1
...
3
1
...
8
4
2
...
67
1
...
00
at I = 0 mM
1
...
588
0
...
476
0
...
4
at I = 1 mM
1
...
90
0
...
714
0
...
454
at I = 2 mM
1
...
1
1
0
...
714
0
...
For all the three conditions ([I] = 0, [I] = 1 mM, [I] = 2 mM)
...
5
1/V
1
0
...
5
2
3
4
5
1/S
Linear (1/v (I=0))
Linear (1/v (I=1))
Linear (1/v (I=2))
The figure 1 as shown above indicates that Vmax rises in the presence of an inhibitor, whereas
under all three circumstances [S] stays unchanged
...
Vmax is remains the same while in the
presence of inhibitors, Km is increasing
...
a
...
2035763 π₯ + 0
...
2035763 π₯ + 0
...
2035763)(0) + 0
...
1437161 ; ππ = 6
...
2035763 π₯ + 0
...
2035763) (
β1
) + 0
...
1437161)(πΎπ ) = (
β0
...
1437161 πΎπ
β0
...
1437161
β0
...
4165
ππ
πΏ
π΄π‘ πΌ = 1:
π¦= ππ₯+ π
π¦ = 0
...
08477242
π΄π‘ π₯ = 0 ; π = ππ
π¦ = 0
...
08477242
1
= (0
...
08477242
ππ
1
ππ
= 0
...
7963
π΄π‘ π¦ = 0 ; π₯ =
ππ πβππππ
πΏββ
β1
πΎπ
π¦ = 0
...
08477242
0 = (0
...
08477242
πΎπ
(β0
...
3532294
) (πΎπ )
πΎπ
Biochemical Engineering Exam 1
β0
...
3532294
=
β0
...
08477242
πΎπβπππ = 4
...
4165
πΌ=
πΎπΌ =
ππ
πΏ
4
...
941616661
1
...
5150 ππ
(2
...
4173847 π₯ + 0
...
4173847 π₯ + 0
...
4173847)(0) + 0
...
1251153 ; ππ = 7
...
4173847 π₯ + 0
...
4173847) (
β1
) + 0
...
1251153)(πΎπ ) = (
β0
...
1251153 πΎπ
β0
...
1251153
β0
...
3360
ππ
πΏ
ππ‘ πΌ = 0 ; πΎπ = 1
...
3360 ππ
= 2
...
4165 ππ
2 ππ
= 1
...
3551 β 1)ππ
Problem 3
Michaelis-Menten kinetics are used to describe intracellular reactions
...
In in vitro batch reactors, the quasi-steady-state hypothesis does not hold for [Eo] ο» [So]
...
Rationalize why MichaelisMenten Kinetics and the quasi-steady-state approximation are still reasonable descriptions of
intracellular enzyme reactions
...
If your
answer exceeds three sentence, you will automatically be given a GRADE of ZERO in Problem
no
...
Biochemical Engineering Exam 1
Problem 4
You are working for company A and you join the research group working on immobilized
enzymes
...
His proof is that enzyme has a half-life of 10 days in free solution, but under identical
conditions of temperature, pH, and medium composition, the measured half-life of a packed
column is 30 days
...
Is Harryβs
reasoning right? Do you agree with him? Why or Why not? ANSWER IN NO MORE THAN
FOUR SENTENCES
...
4
Answer:
I agree with Harry, since the immobilization can extend the active lifespan of enzymes, but
it also can kill an enzyme with specific connections by changing the way the enzyme is related to
the enzyme's kinetics
...