Frataxin, a nuclear encoded protein targeted to the mitochondrial matrix, has recently been implicated as an iron chaperone that delivers Fe(II) to the iron-sulfur assembly enzyme ISU. During transport across the mitochondrial membrane, the N-terminal mitochondrial targeting sequence of frataxin is cleaved in a two-step process to produce the "mature" protein found within the matrix; however, N-terminally extended forms of the protein have also been observed in vivo as a result of processing deficiencies. Structural characterization studies of the mature human frataxin ortholog suggest the protein's N-terminus is predominately unfolded, in contrast to what has been observed for the yeast ortholog. Here we report the NMR assignments of a stable intermediate in the processing of human frataxin. These studies were completed to provide structural insight into editing events that lead to mature protein formation. This report also provides structural details of frataxin editing anomalies produced in vivo during altered protein processing events.