Enzymatic Assay of β-AMYLASE (EC 3.2.1.2)

1. Objective

To standardize a procedure for determining the enzymatic activity of β-Amylase.

2. Scope

This procedure applies to all products that have a specification for β-Amylase.

3. Definitions

3.1 Purified Water - water from a deionizing system, resistivity > or = 18MΩ•cm @ 25 ºC

3.2. Unit Definition – One unit will liberate 1.0 mg of maltose from starch in 3 minutes at pH 4.8 at 20 °C.

3.3. STD = Maltose Standard

4. Discussion

Starch + H₂O ^β-Amylase > Reducing Groups (Maltose)

5. Responsibilities

It is the responsibility of trained Analytical Services laboratory personnel to follow this procedure as written.

6. Safety

Refer to Safety Data Sheets (SDS) for hazards and appropriate handling precautions.

7. Procedure

7.1 CONDITIONS:
T = 20 °C, pH = 4.8, A_540nm, Light path = 1 cm

7.2 METHOD:
Spectrophotometric Stop Reaction

7.3 REAGENTS:

7.3.1 16 mM Sodium Acetate Buffer, pH 4.8 at 20 °C Prepare 100 mL in purified water using Sodium Acetate, Trihydrate (S8625). Adjust to pH 4.8 at 20 °C with 1 M HCl.

7.3.2. 1.0% (w/v) Soluble Starch Solution (Starch) Prepare 25 mL in Reagent A using Starch Potato, Soluble (S2630). Facilitate solubilization by heating the starch solution in a glass beaker, directly on a heating/stir plate using constant stirring. Bring to a boil and maintain the solution at this temperature for 15 minutes. Allow the starch solution to cool to room temperature with stirring. Return the starch solution to its original volume (25 mL) by the addition of purified water and dispense aliquots for assay while stirring.

7.3.3. Sodium Potassium Tartrate Solution Dissolve 12.0 grams of Sodium Potassium Tartrate, Tetrahydrate (S2377) in previously heated 8.0 mL of 2 M NaOH, 50 °C - 70 °C. Heat directly on a heating/stir plate using constant stirring to dissolve. DO NOT BOIL.

7.3.4. 96 mM 3,5-Dinitrosalicylic Acid Solution Prepare 20 mL in previously heated, 50 °C - 70 °C, purified water using 3,5-Dinitrosalicylic Acid (D0550). Heat directly on a heating/stir plate using constant stirring to dissolve. DO NOT BOIL.

7.3.5. Color Reagent Solution (Clr Rgt Soln) To 12 mL of purified water, 50 °C - 70 °C, slowly add Reagent 7.3.3 followed by Reagent 7.3.4. The final volume should be 40 mL. If not completely dissolved, the reagents should dissolve when mixed. The solution should be stored in an amber bottle at room temperature. The Color Reagent Solution is stable for 6 months.

7.3.6. 0.2% (w/v) (STD) Prepare 10 mL in purified water using Maltose, Monohydrate (M5885).

7.3.7 β-Amylase Enzyme Solution (Enzyme)

7.3.7.1 Immediately before use, prepare a solution containing 1 unit/mL of β-Amylase in 20 °C purified water.

7.3.7.2 If test enzyme requires a dilution scheme, the first dilution and subsequent dilutions should be in cold 20 °C purified water until the last dilution, and the last dilution should be in 20 °C purified water.

7.4 ASSAY

7.4.1 Pipette (in milliliters) the following reagents into suitable containers:

	Test-1	Test-2	Test-3	Blank
Reagent 7.3.2 (Starch)	1.00	1.00	1.00	1.00

7.4.2 Mix by swirling and equilibrate to 20 °C. Then add:

Reagent 7.3.7 (Enzyme)

0.50

0.70

1.00

----

7.4.3 Mix by swirling and incubate for exactly 3.0 minutes at 20 °C. Then add:

Reagent 7.3.5 (Clr Rgt Soln)

1.00

1.00

1.00

1.00

7.4.4 Cap with a vented cap and place in a boiling water bath. The add:

Reagent 7.3.7 (Enzyme)

0.50

0.30

-----

1.00

7.4.5 Boil for exactly 15 minutes, then cool on ice to room temperature, approximately three minutes, and add:

7.4.6

Purified water

9.00

9.00

9.00

9.00

7.4.7 Mix by inversion and record the A_540nm for both the Test and Blank using a suitable spectrophotometer.

7.4.8 Due to the short enzymatic incubation time of three minutes, each test lot must be run one at a time.

7.5. Standard Curve:

7.5.1 A standard curve is made by pipetting (in milliliters) the following reagents into suitable containers:

	Std1	Std2	Std3	Std4	Std5	Std6	Std7	Std Blank
Reagent 7.3.6 (STD)	0.05	0.20	0.40	0.60	0.80	1.00	2.00	-----
Purified Water	1.95	1.80	1.60	1.40	1.20	1.00	-----	2.00
Reagent 7.3.5 (Clr Rgt Soln)	1.00	1.00	1.00	1.00	1.00	1.00	1.00	1.00

7.5.2 Place in a boiling water bath for exactly 15 minutes, then cool on ice to room temperature and add:

Purified water

9.00

9.00

9.00

9.00

9.00

9.00

9.00

9.00

7.5.3 Mix by inversion and record the A_540nm for the Standards and Standard Blank using a suitable spectrophotometer.

7.6 CALCULATIONS

7.6.1 Standard Curve

ΔA_540nm Standard = A_540nm Std - A_540nm Std Blank

Plot the ΔA_540nm of the Standards vs milligrams of Maltose. Calculate and record the slope, y-intercept, and linear regression(r-square).

7.6.2 Sample Determination

ΔA_540nm Sample = A_540nm Test - A_540nm Test Blank

Determine the milligrams of Maltose liberated using the Standard Curve.

7.6.3	Units/Ml enzyme =	mg of Maltose released(df)
		(1)

df = Dilution Factor
1 = Volume (in milliliter) of enzyme used

7.6.4	Units/mg solid =	units/mL enzyme
		mg solid/mL enzyme

7.6.5	Units/mg protein =	units/mL enzyme
		mg protein/mL enzyme

7.7 FINAL ASSAY CONCENTRATION
In a 2.00 mL reaction mix, the final concentrations are 8 mM sodium acetate, 0.50% (w/v) starch and 1 unit β-amylase.

8. References

Bernfeld, P. (1955) Methods in Enzymology 1, 149-158