Fig 1.
Frequency distributions of the DH lines of Hi-Q × RIL-144 cross of Brassica napus, grown under different photoperiod and temperature in growth chamber, for days to flowering.
Table 1.
Least squares mean difference for days to flowering of the DH population of Hi-Q × RIL-144 cross of Brassica napus grown in growth chamber under three different photoperiod and constant temperature of 18 0C.
Fig 2.
QTL mapping of days to flowering under different photoperiod and temperature conditions by use of a doubled haploid (DH) population derived from Hi-Q × RIL-144 cross of Brassica napus carrying the C genome content of B. oleracea var. alboglabra.
Table 2.
QTL detected for days to flowering (DTF) under different photoperiod and temperature conditions by composite interval mapping by use of a doubled haploid population derived from Hi-Q × RIL144 cross of Brassica napus carrying the C genome content of B. oleracea var. alboglabra.
Table 3.
QTL detected for days to flowering (DTF) under different photoperiod and temperature conditions by single marker analysis and by use of a doubled haploid population derived from Hi-Q × RIL144 cross of Brassica napus carrying the C genome content of B. oleracea var. alboglabra.
Table 4.
Epistasis effect estimated on days to flowering (DTF) by use of a doubled haploid population derived from Hi-Q × RIL144 cross of Brassica napus carrying the C genome content of B. oleracea var. alboglabra.
Table 5.
List of putative flowering time genes from the C genome chromosomes C1 and C9 of Brassica napus.