The availability of the complete genome sequence of Bdellovibrio bacteriovorus provides an opportunity for investigating genes that play a significant role in predation. Using two independently derived facultatively predatory Bdellovibrio strains, we have designed a method to cultivate and screen transposon insertion mutants in 96-well microtiter dishes. Transposon insertion mutants were produced by introducing the plasposon pRL27, which carries a mini-Tn5. Mutants have been screened for predatory activity using 96-well plates. Seventeen independent nonpredatory mutants have been isolated, and DNA flanking the insertion has been sequenced. BLAST analysis revealed that most of these interrupted DNA sequences do not code for known proteins or functions. Two of the inactivated genes were analyzed further: one was found to code for a putative serine protease and the other a probable protein involved in secretion through the outer membrane. The methods described here are the first for the generation and isolation of predation-deficient mutants using random-transposon-insertion mutagenesis. As more mutants are isolated and their gene products analyzed, more light will be shed on how this predator carries out its exclusive life processes and perhaps how these products, or the organism itself, can be used for therapeutic, agricultural, and/or other purposes.