The type IB topoisomerase of budding yeast (yTop1) generates small deletions in tandem repeats through a sequential cleavage mechanism and larger deletions with random endpoints through the nonhomologous end-joining (NHEJ) pathway. Vaccinia virus Top1 (vTop1) is a minimized version of the eukaryal TopIB enzymes and uniquely has a strong consensus cleavage sequence: the pentanucleotide (T/C)CCTTp↓. To define the relationship between the position of TopIB cleavage and mutagenic outcomes, we expressed vTop1 in yeast top1Δ strains containing reporter constructs with a single CCCTT site, tandem CCCTT sites, or CCCTT sites separated by 42 bp. vTop1 cleavage at a single CCCTT site was associated with small, NHEJ-dependent deletions. As observed with yTop1, vTop1 generated 5-bp deletions at tandem CCCTT sites. In contrast to yTop1-initiated deletions, however, 5-bp deletions associated with vTop1 expression were not affected by the level of ribonucleotides in genomic DNA. vTop1 expression was associated with a 47-bp deletion when CCCTT sites were separated by 42 bp. Unlike yTop1-initiated large deletions, the vTop1-mediated 47-bp deletion did not require NHEJ, consistent with a model in which re-ligation of enzyme-associated double-strand breaks is catalyzed by vTop1.