Tokuoka, Y.: Koji Amylase. XII. Some Protective Substances for the Inactivation of Alpha and Beta Amylases or Maltase by Heat. Regeneration of These Enzymes Inactivated by Heat, J. Agr. Chem. Soc. Japan15: 43-49, 1939.
2.
Anson, M.L., and Mirsky, A.E.: The Equilibrium Between Active Native Trypsin and Inactive Denatured Trypsin , J. Gen. Physiol. 17: 393-398, 1934.
3.
Johnson, F.H. , Brown, D.E.S., and Marsland , D.A.: A Basic Mechanism in the Biological Effects of Temperature, Pressure, and Narcotics, Science95: 200-203, 1942.
4.
Eyring, H., Johnson, F.H., and Gensler, R.L.: Pressure and Reactivity of Proteins-Invertase, J. Physical Chem. 50: 453, 1946.
5.
Somogyi, M.J. : Micromethods for the Estimation of Diastase , J. Biol. Chem. 125: 399, 1938.
6.
Brown, D.E., Johnson, F.H., and Marsland, D.A.: The Pressure, Temperature Relations of Bacterial Luminescence, J. Cell. & Compt. Physiol. 20: 151, 1942.
7.
Kneen, E., Sandstedt, R.M., and Hollenbeck, C.M. : The Differential Stability of the Malt Amylases-Separation of the α- and β-Compounds, Cereal Chemistry20: 399-423, 1943.
8.
Fukumoto, J. : Studies on Bacterial Amylase. V. Optimal pH and Temperature and Heat Resistance, J. Agr. Chem. Soc. Japan19: 853-861, 1943.
9.
Bernfeld, P. , Staub, A., and Fischer, E.H.: Amylolytic Enzymes. XI. Properties of Crystalline a- Amylase From Human Saliva, Helvet. chim. acta31: 2165-2172, 1948.
10.
Kunitz, M.: The Kinetics and Thermodynamics of Reversible Denaturation of Crystalline Soybean Trypsin Inhibitor, J. Gen. Physiol. 32: 2, 1948.
