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Abstract
Insertion of β-D-glucuronidase (GUS) reporter gene has been found to be useful for detection, quantitation, and monitoring of plant-associated fungi in their environment. GUS was extracted from tomato roots inoculated with a nonpathogenic strain of Fusarium oxysporum, 70T01, that had been genetically modified to express both GUS activity and hygromycin B resistance. To facilitate studies of fungus-plant interactions using the GUS enzyme, we tested several methods for their efficiency of preparation of fungal-encoded GUS from infected plant tissues, namely FastPrep homogenization, grinding of tissues frozen in liquid nitrogen, and extraction from lyophilized material. Of the three procedures, the FastPrep method yielded the highest GUS activity per unit of inoculated root and provided twice the sensitivity of the other methods. This procedure was also the easiest, quickest, and the most reliable. Up to 12 samples could be analyzed in less than 2 h, and as little as 50 mg of fresh tissue was sufficient. Of the factors examined that could affect extraction efficiency, only the length of homogenization and the presence of protein stabilizers (sucrose, bovine serum albumin, and protease inhibitors) in the GUS buffer improved enzyme activity in the extracts. The FastPrep method was also highly effective in enumerating fungal colony forming unit (CFU) populations in the root tissues, provided that the timing and speed of homogenization was controlled. Plating of infected root samples homogenized using the FastPrep equipment and a mortar and pestle yielded about 50 times more CFUs per unit root than the colony counts obtained from whole roots, dried and powdered roots, or lyophilized roots.