Kinetic analysis about the effects of neutral salts on the thermal stability of yeast alcohol dehydrogenase
| Autor: | Kazuo Ikegaya |
|---|---|
| Rok vydání: | 2005 |
| Předmět: |
Hot Temperature
Potassium Compounds Entropy Inorganic chemistry Enthalpy Kinetics Analytical chemistry Saccharomyces cerevisiae Sodium Iodide Biochemistry Fluorides Reaction rate constant Enzyme Stability Thermal stability Molecular Biology Perchlorates Chemistry Sulfates Alcohol Dehydrogenase General Medicine Cations Monovalent Sodium Compounds Salting out Thermodynamics Yeast Alcohol Dehydrogenase Pyruvate kinase Entropy (order and disorder) |
| Zdroj: | Journal of biochemistry. 137(3) |
| ISSN: | 0021-924X |
| Popis: | The effects of salts on the rate constants of inactivation by heat of yeast alcohol dehydrogenase (YADH) at 60.0 degrees C were measured. Different effects were observed at low and high salt concentrations. At high concentrations, some salts had stabilizing effects, while others were destabilizing. The effects of salts in the high concentration range examined can be described as follows: (decreased thermal stability) NaClO(4) < NaI = (C(2)H(5))(4)NBr < NH(4)Br < NaBr = KBr = CsBr = (no addition) < (CH(3))(4)NBr < KCl < KF < Na(2)SO(4) (increased thermal stability). The decreasing effect of NaClO(4) on YADH controlled the thermal stability of the enzyme absolutely and was not compensated by the addition of Na(2)SO(4), a salt which stabilized the enzyme. However, Na(2)SO(4) compensation did occur in response to the decrease in thermal stability caused by (C(2)H(5))(4)NBr. The rate constants of inactivation by heat (k (in)) of the enzyme were measured at various temperatures. Effective values of the thermodynamic activation parameters of thermal inactivation, activation of free energy (DeltaG (double dagger)), activation enthalpy (DeltaH (double dagger)), and activation entropy (DeltaS (double dagger)), were determined. The thermal stability of YADH in 0.8 M Na(2)SO(4) increased more than that of pyruvate kinase from Bacillus stearothermophilus, a moderate thermophile. The changes in the values of DeltaH (double dagger) and DeltaS (double dagger) were great and showed a general compensatory tendency, with the exception of in the case of NaClO(4). The temperature for the general compensation effect (T (c)) was approximately 123 degrees C. With Na(2)SO(4), the thermal stability of YADH at a temperature below T (c) was greater than that in the absence of salt due to the higher values of DeltaH (double dagger) and DeltaS (double dagger), respectively, and thus was an example of low-temperature enzymatic stabilization. With (C(2)H(5))(4)NBr, the thermal stability of YADH at a temperature below T (c) was lower than that in the absence of salt due to the lower values of DeltaH (double dagger) and DeltaS (double dagger), respectively, and thus was an example of low-temperature enzymatic destabilization. But with NaClO(4), the changes in the values of DeltaH (double dagger) and DeltaS (double dagger) were small and the thermal stability of YADH was thus an example of high-temperature enzymatic destabilization. |
| Databáze: | OpenAIRE |
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