Detection and Enumeration of a Tagged Pseudomonas fluorescens Strain by Using Soil with Markers Associated with an Engineered Catabolic Pathway

Abstract

Previously we described a novel gene tagging method, using the moc (mannityl opine catabolism) region from the Agrobacterium tumefaciens Ti plasmid pTi15955, to identify microorganisms destined for release into the environment. Here, we used the engineered strain Pseudomonas fluorescens PF5MT12 carrying the moc region integrated into the bacterial chromosome to demonstrate the usefulness of the markers for detection and direct selection of marked organisms present in soil samples. Using this system, we routinely detected population levels as low as 10(sup2) CFU per g of soil sampled. In addition to direct selection, we developed an immunologically based assay using MOP cyclase, a unique enzyme associated with moc, as the epitope for detecting the tagged organism. The colony immunoblot assay proved to be highly specific and without any false-positive signals when used to identify organisms cultured from soil on nonselective medium. The numbers of colonies that were immunoreactive with the anti-MOP cyclase antibody were essentially equal to those that grew out on selection plates. This indicates that MOP cyclase can be used as a marker and that we can use nonselective medium to retrieve the marked genetically engineered microorganisms and then identify them by using colony immunoblot assays. These direct selection and colony immunoblot methods provide a sensitive and accurate strategy for identifying and enumerating marked organisms recovered from soil samples. We also developed a rapid assay for MOP cyclase that does not require cell permeabilization with toluene. This assay can be used to verify tagged organisms isolated by other methods or to screen large numbers of colonies for the tag following nonselective isolation.