Abstract

The isozymes of lily and corn pollen esterases and acid phosphatase were studied in relation to freeze-drying and vacuum-drying. Fresh samples of Lilium longiflorum L. and Zea mays L. pollen were frozen at rates ranging between 200 and 100 °C/min and freeze-dried at temperatures from 0 to −70 °C for approximately 48 to 70 hr. Freeze-dried samples were rehydrated slowly (10% relative humidity) and rapidly (90% relative humidity). Vacuum-drying was performed at room temperature (22 °C). Soluble pollen enzymes were analyzed by disc electrophoresis on polyacrylamide gels stained with substrate specific reagents. The stained gels were evaluated by densitometry for migration rate, isozyme pattern, and relative activity. The numerical data generated in this manner were then statistically analyzed. The following conclusions resulted from this study: (i) freeze-drying and freeze-thawing treatments were comparable except for corn esterases; (ii) freeze-drying induced alterations in enzyme activity except for corn acid phosphatase; (iii) the freezing rate, the final freezing temperature, and exposure to various relative humidities produced few changes in freeze-dried material; (iv) freeze-drying was less detrimental than vacuum-drying to the enzyme characteristics of corn; (v) freeze-drying yielded higher viabilities than vacuum-drying; and (vi) acid phosphatase alterations appeared to be related to pollen viability in most cases.

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