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Enzyme Technology
Sources of enzymes
Biologically active enzymes may be extracted from any living
organism. A very wide range of sources are used for commercial enzyme production
from Actinoplanes to Zymomonas, from spinach to snake venom. Of
the hundred or so enzymes being used industrially, over a half are from fungi
and yeast and over a third are from bacteria with the remainder divided between
animal (8%) and plant (4%) sources (Table 2.1).
A very much larger number of enzymes find use in chemical analysis and clinical
diagnosis. Non-microbial sources provide a larger proportion of these, at the
present time. Microbes are preferred to plants and animals as sources of enzymes
because:
- they are generally cheaper to produce.
- their enzyme contents are more predictable and
controllable,
- reliable supplies of raw material of constant composition
are more easily arranged, and
- plant and animal tissues contain more potentially harmful
materials than microbes, including phenolic compounds (from plants),
endogenous enzyme inhibitors and proteases.
Attempts are being made to overcome some of these
difficulties by the use of animal and plant cell culture.
Table 2.1. Some important
industrial enzymes and their sources.
|
Enzymea |
EC numberb |
Source |
Intra/extra
-cellularc |
Scale of productiond |
Industrial use |
|
Animal enzymes |
|
Catalase |
1.11.1.6 |
Liver |
I |
- |
Food |
|
Chymotrypsin |
3.4.21.1 |
Pancreas |
E |
- |
Leather |
|
Lipasee |
3.1.1.3 |
Pancreas |
E |
- |
Food |
|
Rennetf |
3.4.23.4 |
Abomasum |
E |
+ |
Cheese |
|
Trypsin |
3.4.21.4 |
Pancreas |
E |
- |
Leather |
|
Plant enzymes |
|
Actinidin |
3.4.22.14 |
Kiwi fruit |
E |
- |
Food |
|
a-Amylase |
3.2.1.1 |
Malted barley |
E |
+++ |
Brewing |
|
b-Amylase |
3.2.1.2 |
Malted barley |
E |
+++ |
Brewing |
|
Bromelain |
3.4.22.4 |
Pineapple latex |
E |
- |
Brewing |
|
b-Glucanaseg |
3.2.1.6 |
Malted barley |
E |
++ |
Brewing |
|
Ficin |
3.4.22.3 |
Fig latex |
E |
- |
Food |
|
Lipoxygenase |
1.13.11.12 |
Soybeans |
I |
- |
Food |
|
Papain |
3.4.22.2 |
Pawpaw latex |
E |
++ |
Meat |
|
Bacterial enzymes |
|
a-Amylase |
3.2.1.1 |
Bacillus |
E |
+++ |
Starch |
|
b-Amylase |
3.2.1.2 |
Bacillus |
E |
+ |
Starch |
|
Asparaginase |
3.5.1.1 |
Escherichia coli |
I |
- |
Health |
|
Glucose isomeraseh |
5.3.1.5 |
Bacillus |
I |
++ |
Fructose syrup |
|
Penicillin amidase |
3.5.1.11 |
Bacillus |
I |
- |
Pharmaceutical |
|
Proteasei |
3.4.21.14 |
Bacillus |
E |
+++ |
Detergent |
|
Pullulanasej |
3.2.1.41 |
Klebsiella |
E |
- |
Starch |
|
Fungal enzymes |
|
a-Amylase |
3.2.1.1 |
Aspergillus |
E |
++ |
Baking |
|
Aminoacylase |
3.5.1.14 |
Aspergillus |
I |
- |
Pharmaceutical |
|
Glucoamylasek |
3.2.1.3 |
Aspergillus |
E |
+++ |
Starch |
|
Catalase |
1.11.1.6 |
Aspergillus |
I |
- |
Food |
|
Cellulase |
3.2.1.4 |
Trichoderma |
E |
- |
Waste |
|
Dextranase |
3.2.1.11 |
Penicillium |
E |
- |
Food |
|
Glucose oxidase |
1.1.3.4 |
Aspergillus |
I |
- |
Food |
|
Lactasel |
3.2.1.23 |
Aspergillus |
E |
- |
Dairy |
|
Lipasee |
3.1.1.3 |
Rhizopus |
E |
- |
Food |
|
Rennetm |
3.4.23.6 |
Mucor miehei |
E |
++ |
Cheese |
|
Pectinasen |
3.2.1.15 |
Aspergillus |
E |
++ |
Drinks |
|
Pectin lyase |
4.2.2.10 |
Aspergillus |
E |
- |
Drinks |
|
Proteasem |
3.4.23.6 |
Aspergillus |
E |
+ |
Baking |
|
Raffinaseo |
3.2.1.22 |
Mortierella |
I |
- |
Food |
|
Yeast enzymes |
|
|
Invertasep |
3.2.1.26 |
Saccharomyces |
I/E |
- |
Confectionery |
|
Lactasel |
3.2.1.23 |
Kluyveromyces |
I/E |
- |
Dairy |
|
Lipasee |
3.1.1.3 |
Candida |
E |
- |
Food |
|
Raffinaseo |
3.2.1.22 |
Saccharomyces |
I |
- |
Food |
|
a The names in common usage
are given. As most industrial enzymes consist of mixtures of enzymes,
these names may vary from the recommended names of their principal
component. Where appropriate, the recommended names of this principal
component is given below. |
|
b The EC number of the
principal component. |
|
c I - intracellular enzyme; E
- extracellular enzyme. |
|
d +++ > 100 ton
year-1; ++ > 10 ton year-1; + > 1 ton
year-1; - < 1 ton year-1. |
|
e triacylglycerol
lipase; |
|
f chymosin; |
|
g Endo-1,3(4)-b-glucanase; |
|
h xylose
isomerase; |
|
i
subtilisin; |
|
j
a-dextrin endo-1,6-a-glucosidase; |
|
k glucan 1,4-a-glucosidase; |
|
l
b-galactosidase; |
|
m microbial aspartic
proteinase; |
|
n
polygalacturonase; |
|
o
a-galactosidase; |
|
p
b-fructofuranosidase. |
In practice, the great majority of microbial enzymes come
from a very limited number of genera, of which Aspergillus species,
Bacillus species and Kluyveromyces (also called
Saccharomyces) species predominate. Most of the strains used have either
been employed by the food industry for many years or have been derived from such
strains by mutation and selection. There are very few examples of the industrial
use of enzymes having been developed for one task. Shining examples of such
developments are the production of high fructose syrup using glucose isomerase
and the use of pullulanase in starch hydrolysis.
Producers of industrial enzymes and their customers will
share the common aims of economy, effectiveness and safety. They will wish to
have high-yielding strains of microbes which make the enzyme constitutively and
secrete it into their growth medium (extracellular enzymes). If the enzyme is
not produced constitutively, induction must be rapid and inexpensive. Producers
will aim to use strains of microbe that are known to be generally safe. Users
will pay little regard to the way in which the enzyme is produced but will
insist on having preparations that have a known activity and keep that activity
for extended periods, stored at room temperature or with routine refrigeration.
They will pay little attention to the purity of the enzyme preparation provided
that it does not contain materials (enzymes or not) that interfere with their
process. Both producers and users will wish to have the enzymes in forms that
present minimal hazard to those handling them or consuming their
product.
The development of commercial enzymes is a specialised
business which is usually undertaken by a handful of companies which have high
skills in
- screening for new and improved enzymes,
- fermentation for enzyme production,
- large scale enzyme purifications,
- formulation of enzymes for sale,
- customer liaison, and
- dealing with the regulatory authorities.
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