PURINE-NUCLEOSIDE PHOSPHORYLASE from Microorganism
Appearance: | White amorphous powder, lyophilized |
---|---|
Activity: | GradeⅢ 15U/mg-solid or more |
Contaminants: | Catalase ≤20% 5'-Nucleosidase ≤1.0×10⁻³% Adenosine deaminase ≤1.0×10⁻³% ATPase ≤1.0×10⁻²% |
Stabilizers: | K-Gluconate, mannitol, EDTA |
Stability: | Stable at -20°C for at least 12 months(Fig.1) |
---|---|
Molecular weight : | approx. 120,000 |
Isoelectric point : | 4.1±0.1 |
Michaelis constants: | 6.4×10⁻⁵M (Inosine), 3.2×10⁻⁴M (Pi) |
Inhibitors: | p-Chloromercuribenzoate, SDS, Hg⁺⁺, Ag⁺ |
Optimum pH : | 7.5-8.0(Fig.2) |
Optimum temperature : | 65°C(Fig.3) |
pH Stability : | pH 6.0-9.0 (30°C, 16hr)(Fig.4) |
Thermal stability : | below 60°C (pH 7.7, 30min)(Fig.5) |
Substrate specificity : | (Table 1) |
Effect of various chemicals : | (Table 2) |
APPLICATIONS
This enzyme is useful for enzymatic determination of inorganic phosphorus, 5'-nucleotidase and adenosine deaminase when coupled with xanthine oxidase (XTO-212) and uricase (UAO-201, UAO- 211).
PNP-301
ASSAY
Principle:
purine-nucleoside phosphorylase
Inosine+Pi ► Hypoxanthine+α-D-Ribose 1-phosphate
xanthine oxidase
Hypoxanthine+2H₂O+2O₂ ► Uric acid+2H₂O₂
The appearance of uric acid is measured at 293nm by spectrophotometry.
Unit definition:
One unit causes the formation of one micromole of uric acid per minute under the conditions described below.
Method:
A. K-Phosphate buffer, pH7.7: | 50mM |
---|---|
B. Inosine solution: | 32mM [Dissolve 85.8mg of inosine (MW=268.23) in 10ml of H₂O with heating] (Stable for at least two weeks if stored at 4°C) |
C. Xanthine oxidase solution : | ca.6.6U/ml[Dissolve xanthine oxidase (XTO-212) to ca.6.6U/ml with ice-cold buffer A](Should be prepared fresh) |
D. Enzyme diluent : | buffer A |
Procedure
Concentration in assay mixture | |
---|---|
K-Phosphate buffer | ca.47 mM |
Inosine | 2.1 mM |
Xanthine oxidase | ca. 0.2U/ml |
1. Prepare the following reaction mixture in a cuvette (d=1.0cm) and equilibrate at 37°C for about 5 minutes.
2.7 ml K-Phosphate buffer, pH 7.7 (A)
0.2 ml Substrate solution (B)
0.1 ml Xanthine oxidase solution (C)
2. Add 0.05ml of the enzyme solution* and mix by gentle inversion.
3. Record the increase in optical density at 293nm against water for 3 to 4 minutes in a spectrophotometer
thermostated at 37°C, and calculate the ΔOD per minute from the initial linear portion of the curve (ΔOD test).
At the same time, measure the blank rate (ΔOD blank) by using the same method as the test except that the enzyme diluent (D) is added instead of the enzyme solution.
* Dissolve the enzyme preparation in ice-cold enzyme diluent (D) and dilute to 0.1-1.5U/ml with the same buffer and store on ice.
Calculation
Activity can be calculated by using the following formula :
ΔOD/min (ΔOD test-ΔOD blank)×Vt×df
Volume activity (U/ml) = = ΔOD/min×4.88×df
12.5×1.0×Vs
Weight activity (U/mg)=(U/ml)×1/C
- Vt
- : Total volume (3.05ml)
- Vs
- : Sample volume (0.05ml)
- 12.5
- : Millimolar extinction coefficient of uric acid under the assay condition (㎠/micromole)
- 1.0
- : Light path length (cm)
- df
- : Dilution factor
- C
- : Enzyme concentration in dissolution (c mg/ml)
REFERENCES
- R.E.Parks, Jr. and R.P.Agarwal; The Enzymes,Vol.7, p483 (3rd ed.)(1972)
- P.A.Hoffee, R.May and B.C.Robertson; Methods in Enzymology,Vol.11, p70 (1972)
- Y.Machida and T.Nakanishi; Agric.Biol.Chem.,45, 1801 (1981)
- M.Sugiura, K.Kato, T.Adachi, Y.Ito, K.Hirano and S.Sawaki; Chem.Pharm.Bull.,29, 1451 (1981)
- P.Fossati; Analytical Biochemistry.,149, 62 (1985)
Substrate(0.2mM) | Relative activity | Substrate(0.2mM) | Relative activity |
---|---|---|---|
Inosine | 100 | ATP | 0 |
Guanosine | 60 | Thymidine | 0.5 |
Adenosine | 0 |
Chemical | Concn.(mM) | Residual activity |
Chemical | Concn.(mM) | Residual activity |
---|---|---|---|---|---|
None | − | 100% | PCMB | 2.0 | 28 |
Metal salt | 2.0 | NEM | 2.0 | 93 | |
MgCl₂ |
94 |
NaF | 2.0 | 98 | |
CaCl₂ | 91 | NaN₃ | 20 | 97 | |
Ba(OAc)₂ | 102 |
EDTA | 5.0 | 97 | |
FeCl₃ | 86 | o-Phenanthroline | 2.0 | 92 | |
MnCl₂ | 93 | Borate | 50 | 89 | |
ZnSO₄ | 91 | Iodoacetamide | 2.0 | 95 | |
NiCl₂ | 89 |
TritonX-100 | 0.10% | 103 | |
CuSO₄ | 92 |
Na-cholate | 0.10% | 104 | |
Pb(OAc)₂ | 93 |
SDS | 0.10% | 0 | |
AgNO₃ | 46 |
Span 20 | 0.10% | 100 | |
HgCl₂ | 0.4 |
Ac, CH₃CO; PCMB, p-Chloromercuribenzoate;EDTA, Ethylenediaminetetraacetate; IAA, Iodoacetamide; NEM, N-Ethylmaleimide; SDS, Sodium dodecyl sulfate.
To get a quote, contact us at info@toyobousa.com, or INQUIRY.