|Place of Origin:||Jiangsu, China|
|Certification:||Halal, Kosher ISO9001, ISO14001, ISO22000|
|Model Number:||Heat stable Alpha-Amylase LIQMEI FD|
|Minimum Order Quantity:||400kg|
|Packaging Details:||25kg, 30kg plastic drums or 1125kg IBC totes|
|Delivery Time:||15-20 Days|
|Payment Terms:||T/T, L/C , D/P|
|Supply Ability:||1000MT to 1500MT Per Year|
|Application:||Enzyme Soy Sauce Brewing||Enzyme:||Alpha-Amylase|
|Activity:||40,000 U/ml (minimum)||Non-GMO:||Non-GMO|
|Strains:||Bacillus Licheniformis||Temperature:||High-temperature Alpah-amylase|
alpha and beta amylase brewing,
Liquid Form Alpha Amylase Soy Sauce Brewing Enzymes , Non - GMO Enzyme
Cost-effective high-temperature almylase for soy sauce brewing
decrease the viscosity of gelatinous starch solution
hydrolyzing starch, glycogen and its degradation products
LIQMEI FD is a heat-stable alpha-amylase produced from non-genetic modified strains of Bacillus licheniformis through submerged fermentation and refining extraction processes. It is an endoamylase that can rapidly decrease the viscosity of gelatinous starch solution by randomly hydrolyzing starch, glycogen and its degradation products within the α-D-1, 4 glucosidic bonds to produce soluble dextrins and oligosaccharides.
With its robust alpha-amylase activity and superior pH stability, LIQMEI FD has found it wide application in the production of potable alcohol and brewing.
soy sauce brewing
|Systematic Name:||EC 220.127.116.11, 1,4-α-D-glucan glucanohydrolase|
|Activity:||40,000 U/ml (minimum)|
|Appearance:||Sepia brown liquid|
|Product pH:||5.5 to 7.0|
|Specific gravity:||1.10 to 1.25 g/ml|
EFFECT OF TEMPERATURE:
Optimum temperature of LIQMEI FD for interval liquefaction is 85∼90°C (185∼194°F). It liquefies starch substrates efficiently at 95∼97°C (203∼207°F) and remains highly active at 100°C (212°F). LIQMEI FD demonstrates exceptional thermal stability at temperatures from 105∼110°C (221∼230°F), maintains its stability for 5 to 7 minutes and keeps on liquefying efficiently.
At a temperature above 105°C (221°F), the enzyme stability decreases rapidly (See Figure 1 andFigure 2). The exact temperature optimum depends on actual conditions including pH, substrate concentration and processing time.
|Figure 1: EFFECT OF TEMP ON ACTIVITY||Figure 2: EFFECT OF TEMP ON STABILITY|
Substrate: 4.0% (w/v) Soluble Starch
Calcium Ion: 10 ppm
Calcium Ion: 10 ppm, pH: 6.8
Substrate: 20 DE Deionized Corn Syrup (30% DSB)
EFFECT OF PH:
LIQMEI FD is active over a wide range of pH, depending on the actual application conditions.
Its optimal pH ranges from 5.8 to 6.5. At a temperature of 25°C (77°F), its stable pH range is 5.0 to 10.0 (See Figure 3 and Figure 4).
The actual pH optimum depends on actual conditions including temperature, substrate concentration and processing time.
|Figure 3: EFFECT OF PH ON ACTIVITY||Figure 4: EFFECT OF PH ON SOLUTION|
Substrate: 4%(w/v) Soluble Starch
Calcium Ion: 10 ppm
Time: 15 min
Time: 20 h
CONCENTRATION OF CALCIUM:
The presence of calcium is helpful to increase the thermal stability of this enzyme. LIQMEI FD requires a very low calcium concentration of 50∼70 ppm (dry solids basis) to ensure its stability.
Copper, titanium, and cobalt ions are moderate inhibitors for LIQMEI FD, whereas aluminum, lead and zinc ions are strong inhibitors.
SAFE HANDLING OF ENZYMES
Inhalation of enzyme dust and mists should be avoided. In case of contact with skins or eyes, promptly rinse with water for at least 15 minutes. For detailed handling information, please refer to the Safety Data Sheet.
PACKAGING, STORAGE & SHELF-LIFE
1) LIQMEI FD is packaged in 25kg, 30kg food-grade HDPE plastic drums or 1125 kg IBC totes. Customized packaging is available upon request.
2) Typical shelf-life is six months if this product is stored below 25°C (77°F) in its original packaging, sealed and unopened, protected from direct sunlight.
3) Its shelf-life will be eighteen months if it is stored properly at 0∼10°C (32∼50°F).
4) LIQMEI FD has been formulated for optimal stability. Prolonged storage and/or adverse conditions such as higher temperatures may lead to a higher dosage requirement, and should be avoided.