Inheritance and genetic mapping of fruit sucrose accumulation in Lycopersicon chmielewskii

Fruit of the domestic tomato (Lycopersicon esculentum Mill.) accumulate soluble sugars primarily in the form of the hexoses, glucose and fructose. In contrast, the predominant sugar in fruit of the wild tomato relative, L. chmielewskii, is sucrose. In the present study, the inheritance and linkage relations of sucrose accumulation were examined in interspecific L. esculentum x L. chmielewskii populations. In backcrosses to either the wild or domestic tomato, segregation for sucrose accumulation permitted qualitative analysis of the trait and indicated monogenic recessive control, although deviations from Mendelian inheritance were observed in some populations. This major gene, designated sucr, was mapped in F₂, F₃, and BC₁F₂ populations using a set of 95 informative RFLP and isozyme markers covering the tomato genome. A map location near the centromere of chromosome 3 was established, with tight linkage to the genomic clone TG102. Association of sucrose accumulation with yellow fruit, encoded by an allele of the r gene, permitted alignment with the classical map, thereby confirming the map location of sucr. A linkage map of the region surrounding sucr was obtained by monitoring recombination between flanking markers in the back-crosses to tomato. A cDNA clone of tomato fruit acid invertase, TIV1, was mapped to TG102 and sucr, with no recombination between the two RFLP markers observed in over 1700 meiotic products. Despite the tight linkage, TG102 and TIV1 hybridize to distinct restriction fragments, hence do not represent the same gene. The genetic data strongly suggest that sucr is an allele of the invertase gene and thus support previous biochemical studies that demonstrated low invertase activity in sucrose-accumulating fruit. L. hisutum, another low-invertase, sucrose-accumulating species, was hybridized with L. chmielewskii and the resulting F₁ plants accumulated sucrose, indicating that genetic control of soluble sugar composition is conserved in these two species.