Electrophoretic studies of several hydrolytic enzymes in relation to the cold tolerance of alfalfa.

Abstract

Two cultivars of alfalfa ( Medicago sativa L.), cold-tolerant Vernal and cold-sensitive Sonora, were grown under summer, winter, and dehardening environments to determine the characteristics and relationships of several hydrolytic enzymes to cold tolerance. Soluble enzymatic proteins, extracted from lyophilized crown and root tissues with three different solvents, were separated by polyacrylamide disc-gel electrophoresis and evaluated on the basis of equal dry weights of tissue and equal quantities of protein. Gels assayed for amylases, acid phosphatases, esterases, leucine aminopeptidases, and adenosine triphosphatases exhibited mainly quantitative differences in isoenzymes depending upon extractant, cultivar, and environmental differences. The qualitative differences detected were generally due to differential solubilities of isoenzymes in the three extractants and, to a lesser extent, were related to environmental, cultivar, or stability differences. While activities of esterases, acid phosphatases, and leucine aminopeptidases increased in winter samples, as soluble protein increased, only slight decreases in these enzymes occurred during dehardening. Conversely, activities of amylases were slightly lower in winter samples than in the other samples, and adenosine triphosphatase activity decreased in the most coldtolerant sample. The measured levels of total nonstructural carbohydrate, total soluble sugar, and starch indicated differences between cultivars in starch-sugar conversion. Further, the differential heat stabilities of the isoamylases also provided some information as to the nature of “protected activity” of diastatic enzymes. Differential cryostabilities of peptidases and adenosine triphosphatases detected between cultivars and environments also demonstrated the influence of the extraction medium in maintaining enzyme activity, and these observations may be important to an understanding of cold tolerance in alfalfa. The obvious speculations regarding enzyme stability and the factors involved as related to the cold tolerance of alfalfa require further examination.