The programmed induction of meiotic DNA double-strand breaks (DSBs) by the evolutionarily conserved SPO-11 protein, which is structurally related to archaeal Topo VIA topoisomerases, triggers meiotic recombination. Identification of several meiosis-specific factors that are required for SPO-11-mediated DSB formation raises the question whether SPO-11 alone can cleave DNA. Here, we have developed procedures to express and purify C. elegans SPO-11 in a soluble, untagged, and monodispersed form. Our biochemical and biophysical analyses demonstrate that SPO-11 is monomeric and binds DNA, double-stranded DNA in particular. Importantly, SPO-11 does not exhibit DNA cleavage activity under a wide range of reaction conditions, suggesting that co-factors are needed for DSB induction activity. Our SPO-11 purification system and the findings reported herein should facilitate future mechanistic studies directed at delineating the mechanism of action of the SPO-11 ensemble in meiotic DSB formation.