Technical Abstract: The cucumber mitochondrial genome is unique because of its huge size and paternal transmission. Three cucumber lines derived from two independent tissue culture experiments exhibited a paternally transmitted mosaic (MSC) phenotype. Transmission studies eliminated paternal imprinting, but low levels (less than 1 percent) of wild type testcross progenies were documented. We identified a 16 kb region (JLV5-DEL) in the mitochondrial genome that was deleted in all the three MSC lines. This deletion was transmitted with the MSC phenotype through the F3 and testcross generations. PCR amplification using two primer sets for regions within JLV5-DEL revealed that rare wild type sorters possessed this region, and PCR using mtDNA as the target revealed low levels (less than 0.5 percent) of the wild type region in MSC16. Therefore, MSC plants are heteroplasmic for the deleted region, but at levels below detection by standard PCR and Southern hybridizations using genomic DNA. Sequence analysis revealed no homologies to mitochondrial genes and no open reading frames within JLV5-DEL. Because no genic regions were identified, the specific lesion conditioning the MSC phenotype may be another deletion, mutation, or rearrangement that occurred during tissue culture or in the parental line and is transmitted together with JLV5-DEL within the same mitochondrium.