Comparison of FDR- and SDR-derived tetraploid progeny from 2x×4x crosses using haploids of Solanum tuberosum L. that produce mixed modes of 2n eggs

Abstract

The relationship between heterozygosity and heterosis in tetraploid potato (Solanum tuberosum subsp. tuberosum L., 2n"4x"48) was examined in a series of first-division restitution (FDR)- and second- division restitution (SDR)-derived tetraploid sub- populations. The subpopulations were constructed using two 2n egg-producing, mixed-mode haploids (2n"2x"24) crossed to three tetraploid (2x" 4x"48) potato clones. Half-tetrad analysis using a co- dominant electrophoretic marker (Pgm-2), which is closely linked to the centromere, discriminated between FDR- and SDR-derived 4x progeny. The FDR:SDR ratio of the 4x progeny observed was dependent upon the haploid parent used in the 2x)4x cross. Field studies were conducted between 1992 and 1996 to com- pare the yield and specific gravity of the two sub- populations and their parents from three crosses. There was no di⁄erence in the total tuber yield or specific gravity between the FDR- and SDR-subpopulations based upon family means, despite the expectation that FDR-derived progeny would transmit a greater por- tion of the genome's heterozygosity intact than SDR- derived progeny. The 4x parent in each family had a higher yield than either 4x progeny subpopulation. Inbreeding, as a consequence of the haploidization process and a lack of genetic diversity, may have negated any advantage of the FDR-derived progenies over the SDR-derived progenies.