Beta-glucanase
COEI-1-BGLUCA Beta-Glucanases from Trichoderma Sp.
(E.C. 3-2-1-58)
(C.A.S. No. 9073-49-8)
Glucan 1,3-beta-glucosidase
(exo-1,3-beta-glucosidase; beta-1,3-glucan exo-hydrolase; exo-1,3-beta-glucanase; endo-1,3-beta-glucanase)
and glucan 1,6-beta-glucosidase
General specifications
The specifications must comply with general specifications for enzymatic preparations that appear in the International Oenological Codex.
- Object, origin and field of application
The degradation of beta-glucans present in wines, in particular those from grapes affected by Botrytis cinerea or yeast glucans. These molecules of a very high molecular weight hydrolyse the beta-1,3 and beta-1,6 bonds of 1,3 (1,6)-beta-D-glucans with glucose production.
Secondary activities: hemicellulases, cellulases.
The beta-1,3-D-glucanases are produced from Trichoderma harzianum .and/or Trichoderma ressei
The preparation of the enzyme is without any harmful consequences as is production and purification.
Beta-glucanases do not contain any substances, micro-organisms nor collateral enzymatic activities that can:
- be harmful to health,
- be harmful to the quality of the products treated,
- lead to the formation of undesirable products or flavour problems.
There are regulatory limits for the use of beta-glucanases in wine.
- Labelling
The concentration of the product must be indicated on the label, as well as the safety conditions, storage conditions and the expiry date.
- Characteristics
In general, it is greyish to light brown amorphous powder or light brown to dark brown liquids or granules.
- Solubility
Soluble in water and practically insoluble in ethanol.
- Enzymatic activity
Activity is the quantity of enzyme necessary for liberating in standardised conditions (see activity measured according to a method to be described), a quantity of reducing sugars corresponding to 1 µmole of glucose per minute.
Remark: the enzyme produced according to paragraph 6 simultaneously has beta-1,3-glucanase and beta-1,6-glucanase activities which gives it the sought oenological properties.
- Source of enzyme and production means
The beta (-1,3-1,6) glucanases are produced by submerged culture of a selected non pathogenic, non toxic strain of Trichoderma harzianum and/or Resei that is not genetically modified, in pure culture.
- Diluents, preservatives and additives
The preparation of beta-glucanase is generally in the form of granules. These products are prepared with food diluents or food additives such as maltodextrin, sodium citrate, citric acid, starch or glucose.
- Test trials
8.1. Loss at desiccation: Less than 10%. (does not apply to liquid preparations)
8.2. Ashes/Sulphuric ashes
Determine the sulphuric cinders according to the method in Chapter II of the International Oenological Codex.
The rate of sulphuric ashes of beta-glucanases should not be more than 2% of dry matter.
8.3. Preparation of the test solution
Dissolve 5 g of beta-glucanases in 100 ml of water.
8.4. Heavy metals
Add 2 ml of buffer solution pH 3.5 (R) and 1.2 ml of thioacetamide reagent (R) to 10 ml of the test trial solution (8.3). No precipitate should form. If a brown colouration appears, it should be
lighter than the control prepared as indicated in Chapter II of the International Oenological Codex.
The heavy metal content expressed in lead should be less than 30 mg/kg.
8.5. Arsenic
In 2 ml of test trial solution (8.3), search by the method indicated in
- Chapter II of the International Oenological Codex.
Arsenic content should be less than 3 mg/kg.
8.6. Lead
Using the test trial solution (8.3) determine the lead according to the method described.
Lead content should be less than 5 mg/kg.
8.7. Mercury
Using the test trial solution (8.3) determine the mercury according to the method described in Chapter II of the International Oenological Codex.
Mercury content should be less than 0.5 mg/kg.
8.8. Cadmium
Using the test trial solution (8.3) determine the cadmium according to the method described in chapter II of the International Oenological Codex.
Cadmium content should be less than 0.5 mg/kg.
8.9. Biological contaminants
|
Total microorganisms |
less than 5 104 CFU/g of preparation |
|
Total bacteria |
less than 103 CFU/g of preparation |
|
Total coliforms |
less than 30 CFU/g of preparation |
|
Escherichia coli |
absence checked on a 25 g sample |
|
St. aureus[1] |
absence checked on a 1 g sample |
|
Salmonella |
absence checked on a 25 g sample |
|
Sulfitoreducing anaerobia |
less than 30 CFU/g of preparation |
|
Yeasts |
maximum content 102 CFU/g of preparation |
|
Total lactic bacteria |
absence checked on a 10 g sample |
|
Acetic bacteria |
maximum content 102 CFU/ g of preparation |
|
Moulds |
maximum content 102 CFU/g of preparation |
|
Antibiotic activity[2] |
not detectable |
|
Mycotoxins[3] |
not detectable |
- Storage
In a solid form, the preparation can be stored for several years and in a liquid form for several months at a low temperature (+5°C).
[1] Method to be defined by the Sub-Commission of Methods of Analysis
[2] Method to be defined by the Sub-Commission of Methods of Analysis
[3] Method to be defined by the Sub-Commission of Methods of Analysis