Seventy-nine recombinant backcross substitution lines from a cross between Brassica oleracea var. italica and Brassica oleracea var. alboglabra were grown in ®eld trials over ®ve years along with the alboglabra recurrent parent. Plants were scored for the days from sowing to the opening of the ®rst ower, and lines that¯owered signi®cantly earlier or later than the recurrent parent were identi®ed. Based on the lengths of the substitutions, evidence for 11 QTL on chromosomes O1, O2, O3, O5 and O9 was found, ®ve of which mapped to similar regions to ®ve of the six found in a previous analysis of doubled haploid lines from the same cross. Several of the QTL were linked closely in repulsion.Keywords: Brassica,¯owering time, QTL analysis, substitution lines.
IntroductionBrassica oleracea is an agriculturally important species including many vegetables such as cabbage, broccoli and cauli¯ower. It is closely related to the model dicotyledonous plant Arabidopsis thaliana and so it is expected that information concerning control of basic biological processes in A. thaliana will be transferable to Brassica crops.Information should also be transferable between di erent species within the Brassica genus, as the three diploid genomes, A, B and C, of B. rapa, B. nigra and B. oleracea, respectively, are thought to have derived from the same ancestor. These genomes reveal striking conservation of content, although chromosome duplication and translocation have occurred during divergence (Lagercrantz & Lydiate, 1996). The amphidiploid B. napus (oilseed rape) genome is made up of the A and C genomes probably from close relatives of B. rapa and B. oleracea. (U, 1935; Parkin et al., 1995).Flowering time is not only of scienti®c interest because it facilitates the understanding of plant development, it is also important in agriculture, because its modi®cation may enable the geographical range of the Brassica crop to be extended. For example, cultivation of B. napus is usually restricted to temperate latitudes, but the development of early¯owering cultivars would allow the crop to be grown in low-rainfall regions such as the Western Australian wheat belts (Thurling & Depittayanan, 1992), and more northern regions of Canada (Murphy & Scarth, 1994).Genes a ecting¯owering time have been identi®ed in A. thaliana by mutagenesis (Koornneef et al., 1991). For example, mutations of the CONSTANS gene cause delayed¯owering under long days, but not short, and the gene has been cloned by chromosome walking (Putterill et al., 1993(Putterill et al., , 1995.Two regions in¯uencing¯owering time in B. nigra (on LG2 and LG8) have been found to be homologous to the CONSTANS gene region (Lagercrantz et al., 1996). These regions have also been shown to carry quantitative trait loci (QTL) in the A genome of B. napus, and show large-scale colinearity between regions on chromosomes O2, O3 and O9 of B. oleracea.Previous studies mapping QTL for¯owering time in B. oleracea have been reported. For example, Kennard et al. (1994) found signi®cant QTL using singl...
