The BRCA2 tumor suppressor functions in repair of DNA by homologous recombination through regulating the action of Rad51. In turn, BRCA2 appears to be regulated by other interacting proteins. Dss1, a small interacting protein that binds to the C-terminal domain, has a profound effect on activity as deduced from studies on the BRCA2-related protein Brh2 in Ustilago maydis. Evidence accumulating in mammalian systems suggests that BCCIP, another small interacting protein that binds to the C-terminal domain of BRCA2, also serves to regulate homologous recombination activity. Here we were interested in testing the role of the putative U. maydis BCCIP ortholog Bcp1 in DNA repair and recombination. In keeping with the mammalian paradigm, Bcp1 bound to the C-terminal region of Brh2. Mutants deleted of the gene were extremely slow growing, showed a delay passing through S phase and exhibited sensitivity to hydroxyurea, but were otherwise normal in DNA repair and homologous recombination. In the absence of Bcp1 cells were unable to maintain the wild type morphology when challenged by a DNA replication stress. These results suggest that Bcp1 could be involved in coordinating morphogenetic events with DNA processing during replication.