The oncogene v-myb of avian myeloblastosis virus (AMV) encodes a transcription factor (v-Myb) that transforms myelomonocytic cells by deregulating the expression of specific target genes. v-myb has acquired its oncogenic potential by truncation as well as by a number of point mutations of its cellular progenitor c-myb. As a result of these changes, the target gene spectrum v-Myb differs from that of c-Myb. We recently showed that the chicken mim-1 gene, a c-Myb target gene that is not activated by v-Myb harbors a powerful cell type-specific and Myb-inducible enhancer in addition to a Myb-responsive promoter. We now show that Myb-dependent activation of the mim-1 gene is accompanied by extensive remodeling of the nucleosomal architecture at the enhancer. We found that the mim-1 enhancer region also harbors a promoter whose activity is stimulated by Myb and which directs the transcription of an apparently non-coding RNA. Furthermore, our data show that the oncogenic mutations of AMV have disrupted the ability of v-Myb to induce remodeling of chromatin structure at the mim-1 enhancer. Together, our results demonstrate for the first time directly that Myb induces alterations of the nucleosomal organization at a relevant target site and provide new insight into the functional consequences of the oncogenic amino acid substitutions.