Breakdown of a hybridization barrier between Solanum pinnatisectum Dunal and potato using the S locus inhibitor gene (Sli)

Abstract

Several attempts have been undertaken to exploit the resistance to late blight [Phytophthora infestans (Mont.) de Bary] of the Mexican diploid Solanum pinnatisectum Dunal (2n = 2x = 24). However, sexual hybridization between S. pinnatisectum and cultivated potatoes is almost impossible because of strict reproductive barriers. In this study, we first induced chromosome doubling of S. pinnatisectum for matching of the species-specific endosperm balance number (EBN), which is a genetic phenomenon responsible for normal endosperm development. We pollinated 4x (2EBN) S. pinnatisectum flowers with pollen from 2x (2EBN) clones carrying the S locus inhibitor gene (Sli), which originally was identified as an inhibitor of S-locus-controlled self-incompatibility in pollen of diploid potatoes. Nine putative hybrid plants were obtained from 613 pollinations, of which two plants were characterized. Both individuals were triploid hybrids with extreme resistance to P. infestans derived from S. pinnatisectum and showed an acceptable level of female fertility for backcrossing. Thus, utilization of the Sli gene, combined with chromosome-doubling for matching of the EBN, is proposed as a technique to overcome barriers to interspecific hybridization between Mexican 2x (1EBN) Solanum species and cultivated diploid potatoes.