T. Nozaki et al., LINKAGE ANALYSIS AMONG LOCI FOR RAPD, ISOZYMES AND SOME AGRONOMIC TRAITS IN BRASSICA-CAMPESTRIS L, Euphytica, 95(1), 1997, pp. 115-123
F-2 populations from a hybrid between an inbred line of Chinese cabbag
e (Brassica campestris L. var. pekinensis, 2n = 20) and an inbred line
of Mizu-na (B. campestris L. var. japonica 2n = 20) were grown in two
seasons, and were analyzed with RAPD and isozyme markers to construct
a linkage map following our previous linkage analyses for 19 isozyme
loci. A total of 52 RAPD markers were integrated into ten linkage grou
ps, which is the same as the haploid chromosome number of B. campestri
s. Genes for morphological traits, such as leaf shape, period to bolti
ng, leaf hairiness, the self-incompatibility (the S-glycoprotein) and
the NS-glycoprotein which has a high degree of structural homology wit
h the S-glycoprotein, were found to link to the RAPD markers by QTL or
linkage analyses. Leaf shape was found to be controlled by multiple g
enes in two linkage groups. Leaf hairiness seemed to be controlled by
a single gene and to be linked to a group of RAPD markers. The period
to bolting was found to be controlled by at least two independent loci
in the genome. A RAPD marker showing linkage to the self-incompatibil
ity locus showed a recombination value of 20.2%. The NS-glycoprotein l
ocus was linked to the ACP-1 isozyme locus. Linkages between markers a
nd traits are useful for developing marker-assisted selection of impor
tant traits.