Abstract
Specific rearrangements of chromosome 16 are well known in acute nonlymphocytic leukemia with abnormal eosinophils. While mapping cosmids relative to breakpoints in chromosome 16 in leukemic cells with fluorescence in situ hybridization (FISH), we have identified three areas of extensive cross-homology between 16p and 16q. Three cosmids among 99 tested showed two large signals on the short arm and one signal on the long arm of chromosome 16. A fourth cosmid showed mainly two signals on the short arm. With the 16p-specific cosmid we can demonstrate that the breakpoints of a pericentric inversion and a reciprocal (16;16) translocation, both of which are characteristic for acute leukemia, map to the most distal of two blocks on the short arm. We suggest that there may be at least two distinct repetitive elements specific for chromosome 16 interdigitated on 16p. The presence of a similar repeat in the short, as well as the long arm of the chromosome, may play a role in the origin of chromosome 16 rearrangements in acute leukemia.