1. Catalysis: Concepts and Green Applications
Lecture slides for Chapter 5: Biocatalysis
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2. Figure 5.1
Biocatalysis
applications
Detergents
Food
Fibres
Animal feed
Pulp and paper
Bulk chemicals
Fine chemicals
Pharmaceuticals
Nutraceuticals
Bioremediation
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3. Figure 5.2
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4. Figure 5.3
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5. Figure 5.4
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6. Figure 5.5
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7. Figure 5.6
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8. Figure 5.7
colour fig
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9. Figure 5.8
slow
fast
enzyme-bound
acyl intermediate
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10. Figure 5.9
substrate
substrate-H2
second
NAD(P)H
NAD(P)+
enzyme
enzyme I
enzyme II
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11. Figure 5.10 +
enzyme
Eupergit resin
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12. Figure 5.11
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13. Figure 5.12
precipitation
cross-linking
enzyme molecules
~5 nm
aggregates
~1 mm
CLEAs,
1–100 mm
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14. naphthalene dioxygenase (NDO)
Figure 5.13
isatin hydrolase
naphthalene dioxygenase (NDO)
pathway blocked
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15. Figure 5.14
ampicillin (R = H), amoxycillin (R = OH)
cephalexine
penicillin acylase
CH3SiCl
PCl5
H2O
n-BuOH
6-aminopenicillanic acid (6-APA)
penicillin G
– 40°C
H2O, 37°C
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16. Figure 5.15
8-aza-1-tetralone
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17. Figure 5.16
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18. Figure 5.17
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19. Figure 5.18
amino acid sequence
mutated sequences
cloning
selection
screening
select improved sequence
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20. Figure 5.19
antigens (haptens)
heavy chain
light chain
antigen binding site
S-S bond hinge
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21. Figure 5.20
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22. Figure 5.21
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23. filtration on charcoal
Figure 5.22
D-glucose
pretreatment
reactor series, 55–65 °C
filtration on charcoal
cooling
isoglucose
(42% D-fructose)
concentration
HFCS
(45% D-fructose)
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24. Figure 5.23
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25. Figure 5.24
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26. Figure 5.25
10-diacetylbaccatin (10-DAB)
paclitaxel
11 chemical steps
13 reagents
13 solvents
plant cell fermentation
in aqueous solution
isolation and crystallising
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27. Figure 5.26
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28. Figure 5.27
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29. Figure 5.28
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30. Figure 5.29
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