In V (D) J recombination, double‐strand breaks (DSBs) are introduced at recombination signal sequences (RSSs) which consist of three distinct elements: a heptamer, a 12 or 23 nucleotide spacer and a nonamer. Efficient DSB formation requires a 12/23 RSS pair and occurs at both RSS in a temporally coupled fashion (coupled cleavage). It remains unknown which RSS elements are important for coupled cleavage. Furthermore, it has not been established whether some RSS components are critical only for cleavage in cis, with others mainly promoting cleavage in trans at the partner RSS. We investigated these questions by analyzing the effects of RSS mutations on the formation of DSBs in vivo. The abundance of DSBs in cis (at the mutant RSS) and in trans (at the consensus RSS) was determined using an established ligation‐mediated PCR assay. We also developed a Southern blotting approach that allows the first direct measurement of dual and single RSS cleavage in vivo. Our results demonstrate that the heptamer, spacer and nonamer elements are all required for coupled cleavage in vivo. These studies also provide evidence for cleavage events involving a single RSS both in mutant substrates and in substrates containing a consensus 12/23 RSS pair.