Determination of pectin methylesterase activity in enzymatic preparations (complement to resolution OENO 9/2008)
RESOLUTION OIV-OENO 363-2012
DETERMINATION OF PECTIN METHYLESTERASE ACTIVITY IN ENZYMATIC PREPARATIONS (COMPLEMENT TO RESOLUTION 9-2008)
THE GENERAL ASSEMBLY
IN VIEW of article 2, paragraph 2 IV of the Agreement of 3 April 2001, by which the International Organisation of Vine and Wine was founded,
CONSIDERING the works of the group of experts Specifications of Oenological Products,
CONSIDERING the resolution Oeno 9/2008 adopted in 2008 concerning the pectinemethyl esterase
HAS HEREBY DECIDED to modify the title of the resolution 9/2008 by “Determination of pectin methylesterase activity in enzyme preparations“ and to complete the monograph on the determination of Pectine Methyl Esterase activity (Oeno 9/2008) published in the international Oenological Codex by the following modification:
DECIDE to add a title to the existing method indicating “Determination of Pectine methylesterase activity using methanol dosage” and to renumber the relevant point
DETERMINATION OF PECTIN METHYLESTERASE ACTIVITY IN ENZYMATIC PREPARATIONS
General specifications
These enzymes are usually present within an complex enzymatic preparation. Unless otherwise stipulated, the specifications must comply with the Oeno resolution Oeno 365-2009 concerning the general specifications for enzymatic preparations included in the International Oenological Codex.
1. Origin
Reference is made to paragraph 5 “Source of enzyme and fermentation environment” of the general monography on Enzymatic preparation
The enzyme preparations containing such activity are produced by directed fermentations such as Aspergillus niger, Aspergillus oryzae, Aspergillus sojae, Aspergillus Tubigensis, Aspergillus Awamori, Rhizopus oryzae and Trichoderma longibrachiatum (T.reesei)
2. Scope /Applications
Reference is made to the International Code of Oenological Practices, OENO 11/04; 12/04; 13/04; 14/04 and 15/04.
These enzyme activities are used to support grape maceration and grape juice extraction as well as to help the clarification of musts and wines and finally to improve their filterability.
Determination of Pectinmethylesterase activity using acid based titration
1. Principle
The demethylation activity of the pectinmethylesterase results in the appearance of free carboxylic groups at the level of the galacturonic acids forming the chains. To determine the activity of pectinmethylesterase, the carboxyl groups can be titrated during the enzymatic hydrolysis with sodium hydroxide solution at constant temperature and constant pH-value.
2. Equipment and materials
- Titration equipment (burette)
- Temperature controlled heat plate and magnetic stirrer/magnetic stir bar
- pH meter
- Glass cup, filled with water
- Chronometer
- Graduated flasks (different volume)
- Beakers ( preferably 50 mL)
- Precision pipettes (different volume)
3. Chemicals and reagents
- Pectin; highly esterified; p.a. quality (Sigma P9135-100G); CAS 9000-69-5
- 0,01 M NaOH solution (Titrisol) p.a. quality; CAS 1310-73-2
- NaOH pellets p.a. quality ; CAS 1310-73-2
4. Preparation of soultions
4.1. 1 M NaOH
Dissolve 4 g NaOH in 100 mL 
4.2. Substrate solution
As substrate solution 1 % Pectin in , is used by solving 2.0 g Pectin very slowly in 150 ml . Subsequently the pH value is adjusted at pH 4.0 and at 40 °C with 1 M NaOH. The solution must be filled up to 200 mL exactly. Just before measuring, the pH-value should be controlled and adjusted again at pH 4,0, if necessary
4.3. Enzymatic solution
The enzymatic solution consists of approximately 30 to 50 mg/L commercial enzyme preparation diluted in cold water. This solution should be prepared directly before using.
4.4. 0.01M NaOH
This precast solution should be diluted according to the description of the producer.
5. Performance of enzyme activity determination
20 ml of substrate solution are put in a beaker (magnetic stirrer is added) on the temperature controlled heat plate in a glass cup, which is filled with water heated up to 40 °C. The pH electrode is put in substrate solution. It is necessary to have a control and maybe a new setting up of the pH-value at 40 °C before starting the analysis. Then 0.1 ml of the enzymatic solution is added. Exactly at this time the chronometer is started. During the analysis the pH value must be measured and the sample has to be titrated up to pH 4.0 with 0.01 M NaOH for 10 minutes at 40 °C. After 10 min the analysis is stopped and the consumption of 0.01 M NaOH is read off.
The consumption of 0,01 M NaOH should amount to values between 3,5 mL and 8,5 mL. Otherwise it is recommended to dilute or concentrate the enzymatic solution.
6. Calculation of the enzymatic activity
Enzymatic activity is calculated by using following formula:
Activity (U/mg) = n / (t*v*c)
Activity (nkat/g) = (Activity (U/mg) * 1000/60) * 1000
- n = consumption of 0.01 M NaOH in µmol
- t = time in min (in this case 10 min)
- v = quantity of enzymatic solution introduced in ml (=0.1 ml)
- c = concentration of the enzymatic solution in g/L
Validation of the acid based titration to determine the activity of Pectin methylesterase
The mean value of the standard deviation was determined of 8 different enzymes.
Each enzyme was analysed 6 times.
Mean value of the standard deviations of the different enzymes = 3.91 %
|
Enzyme 1 40 mg/ml |
Enzyme 2 40 mg/ml |
Enzyme 3 40 mg/ml |
Enzyme 4 40 mg/ml |
Enzyme 5 40 mg/ml |
Enzyme 6 40 mg/ml |
Enzyme 7 30 mg/ml |
Enzyme 8 50 mg/ml |
Enzyme 8 30 mg/ml |
|
Mean Value (nkat/g) |
14527.7 |
19291.7 |
12756.8 |
9534.7 |
9444.5 |
18577.8 |
31591.7 |
10888.9 |
9446.5 |
|
Standard Deviation (nkat/g) |
282.3 |
449.5 |
366.4 |
227.4 |
272.3 |
145.6 |
540.9 |
944.4 |
1096.1 |
|
Standard Deviation % |
1.9 |
2.3 |
2.9 |
2.4 |
2.9 |
0.8 |
1.7 |
8.7 |
11.6 |
|
s2(r) |
66410 |
168402 |
111863 |
43097 |
61786 |
17654 |
243773 |
743210 |
1001244 |
|
s ( r) |
257.7 |
410.4 |
334.5 |
207.6 |
248.6 |
132.9 |
493.7 |
862.1 |
1000.6 |
|
Repeatability r (nkat/g) |
729.3 |
1161.3 |
946.5 |
581.5 |
703.4 |
376.0 |
1397.3 |
2439.7 |
2831.8 |
Validation of the acid based titration to determine the activity of PME
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 1 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 1 |
40 mg/ml |
0.89 |
14833 |
mean value (nkat/g) |
14527.7 |
93228.4 |
||
|
Enzyme 1 |
40 mg/ml |
0.89 |
14750 |
standard deviation (nkat/g) |
282.30 |
49432.1 |
||
|
Enzyme 1 |
40 mg/ml |
0.88 |
14667 |
standard deviation % |
1.9 |
19413.8 |
||
|
Enzyme 1 |
40 mg/ml |
0.85 |
14083 |
variance |
3.8 |
197728.4 |
||
|
Enzyme 1 |
40 mg/ml |
0.87 |
14500 |
s2(r) |
66410.6 |
765.4 |
||
|
Enzyme 1 |
40 mg/ml |
0.86 |
14333 |
s( r) |
257.7 |
37895.1 |
||
|
r (nkat/g) repeatability |
729.3 |
sum |
398463.3 |
|||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 2 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 2 |
40 mg/ml |
1.185 |
19750 |
mean value (nkat/g) |
19291.7 |
210069.4 |
||
|
Enzyme 2 |
40 mg/ml |
1.155 |
19250 |
standard deviation (nkat/g) |
449.54 |
1736.1 |
||
|
Enzyme 2 |
40 mg/ml |
1.130 |
18833 |
standard deviation % |
2.3 |
210069.4 |
||
|
Enzyme 2 |
40 mg/ml |
1.125 |
18750 |
s2(r) |
168402.8 |
293402.8 |
||
|
Enzyme 2 |
40 mg/ml |
1.190 |
19833 |
s( r) |
410.4 |
293402.8 |
||
|
Enzyme 2 |
40 mg/ml |
1.160 |
19333 |
r (nkat/g) repeatability |
1161.3 |
1736.1 |
||
|
sum |
1010416.7 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 3 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 3 |
40 mg/ml |
0.78 |
13042 |
mean value (nkat/g) |
12756.8 |
81320.0 |
||
|
Enzyme 3 |
40 mg/ml |
0.79 |
13208 |
standard deviation (nkat/g) |
366.38 |
203551.4 |
||
|
Enzyme 3 |
40 mg/ml |
0.76 |
12708 |
standard deviation % |
2.9 |
2384.7 |
||
|
Enzyme 3 |
40 mg/ml |
0.76 |
12583 |
s2(r) |
111863.1 |
30218.0 |
||
|
Enzyme 3 |
40 mg/ml |
0.77 |
12833 |
s( r) |
334.5 |
5801.4 |
||
|
Enzyme 3 |
40 mg/ml |
0.73 |
12167 |
r (nkat/g) repeatability |
946.5 |
347903.4 |
||
|
sum |
671178.8 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 4 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 4 |
40 mg/ml |
0.57 |
9500 |
mean value (nkat/g) |
9534.67 |
1201.8 |
||
|
Enzyme 4 |
40 mg/ml |
0.59 |
9875 |
standard deviation (nkat/g) |
227.41 |
115826.8 |
||
|
Enzyme 4 |
40 mg/ml |
0.56 |
9333 |
standard deviation % |
2.4 |
40669.4 |
||
|
Enzyme 4 |
40 mg/ml |
0.56 |
9250 |
s2(r) |
43096.9 |
81035.1 |
||
|
Enzyme 4 |
40 mg/ml |
0.58 |
9583 |
s( r) |
207.6 |
2336.1 |
||
|
Enzyme 4 |
40 mg/ml |
0.58 |
9667 |
r (nkat/g) repeatability |
587.5 |
17512.1 |
||
|
sum |
258581.3 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 5 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 5 |
40 mg/ml |
0.55 |
9167 |
mean value (nkat/g) |
9444.5 |
77006.3 |
||
|
Enzyme 5 |
40 mg/ml |
0.59 |
9792 |
standard deviation (nkat/g) |
272.29 |
120756.3 |
||
|
Enzyme 5 |
40 mg/ml |
0.55 |
9083 |
standard deviation % |
2.9 |
130682.3 |
||
|
Enzyme 5 |
40 mg/ml |
0.57 |
9458 |
s2(r) |
61785.6 |
182.3 |
||
|
Enzyme 5 |
40 mg/ml |
0.57 |
9542 |
s( r) |
248.6 |
9506.3 |
||
|
Enzyme 5 |
40 mg/ml |
0.58 |
9625 |
r (nkat/g) repeatability |
703.4 |
32580.3 |
||
|
sum |
370713.5 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 6 40 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 6 |
40 mg/ml |
1.105 |
18417 |
mean value (nkat/g) |
18577.8 |
25956.8 |
||
|
Enzyme 6 |
40 mg/ml |
1.118 |
18633 |
standard deviation (nkat/g) |
145.55 |
3086.4 |
||
|
Enzyme 6 |
40 mg/ml |
1.125 |
18750 |
standard deviation % |
0.8 |
29660.5 |
||
|
Enzyme 6 |
40 mg/ml |
1.105 |
18417 |
s2(r) |
17654.3 |
25956.8 |
||
|
Enzyme 6 |
40 mg/ml |
1.112 |
18533 |
s( r) |
132.9 |
1975.3 |
||
|
Enzyme 6 |
40 mg/ml |
1.123 |
18717 |
r (nkat/g) repeatability |
376.0 |
19290.1 |
||
|
sum |
105925.9 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 7 30 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 7 |
30 mg/ml |
1.920 |
32000 |
mean value (nkat/g) |
31591.7 |
166736.1 |
||
|
Enzyme 7 |
30 mg/ml |
1.947 |
32450 |
standard deviation (nkat/g) |
540.86 |
736736.1 |
||
|
Enzyme 7 |
30 mg/ml |
1.873 |
31217 |
standard deviation % |
1.7 |
140625.0 |
||
|
Enzyme 7 |
30 mg/ml |
1.860 |
31000 |
s2(r) |
243773.1 |
350069.4 |
||
|
Enzyme 7 |
30 mg/ml |
1.893 |
31550 |
s( r) |
493.7 |
1736.1 |
||
|
Enzyme 7 |
30 mg/ml |
1.880 |
31333 |
r (nkat/g) repeatability |
1397.3 |
66736.1 |
||
|
sum |
1462638.9 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 8 50 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 8 |
50 mg/ml |
0.578 |
9633 |
mean value (nkat/g) |
10888.9 |
1576419.8 |
||
|
Enzyme 8 |
50 mg/ml |
0.682 |
11367 |
standard deviation (nkat/g) |
944.38 |
228271.6 |
||
|
Enzyme 8 |
50 mg/ml |
0.706 |
11767 |
standard deviation % |
8.7 |
770493.8 |
||
|
Enzyme 8 |
50 mg/ml |
0.712 |
11867 |
s2(r) |
743209.9 |
956049.4 |
||
|
Enzyme 8 |
50 mg/ml |
0.596 |
9933 |
s( r) |
862.1 |
913086.4 |
||
|
Enzyme 8 |
50 mg/ml |
0.646 |
10767 |
r (nkat/g) repeatability |
2439.7 |
14938.3 |
||
|
sum |
4459259.3 |
|||||||
Enzyme |
Concentration |
U/mg |
nkat/g |
Enzyme 8 30 mg/ml |
(X-MW)^2 |
|||
|
Enzyme 8 |
30 mg/ml |
0.69 |
11444 |
mean value (nkat/g) |
9446.5 |
3990006.3 |
||
|
Enzyme 8 |
30 mg/ml |
0.067 |
8667 |
standard deviation (nkat/g) |
1096.13 |
607620.3 |
||
|
Enzyme 8 |
30 mg/ml |
0.063 |
8889 |
standard deviation % |
11.6 |
310806.3 |
||
|
Enzyme 8 |
30 mg/ml |
0.065 |
8429 |
s2(r) |
1001243.9 |
1035306.3 |
||
|
Enzyme 8 |
30 mg/ml |
0.07 |
9625 |
s( r) |
1000.6 |
31862.3 |
||
|
Enzyme 8 |
30 mg/ml |
0.067 |
9625 |
r (nkat/g) repeatability |
2831.8 |
31862.3 |
||
|
sum |
6007463.5 |
|||||||
mean value of the standard deviations % |
3.91 |
|||||||