期刊
PLANT BREEDING
卷 120, 期 6, 页码 473-478出版社
WILEY
DOI: 10.1046/j.1439-0523.2001.00639.x
关键词
Brassica napus; yellow seed; petal colour; erucic acid; glucosinolate content
Two yellow-seeded white-petalled Brassica napus F-7 inbred lines. developed from interspecific crosses, containing 26-28% erucic acid and more than 40 mumol glucosinolates (GLS)/g seed were crossed with two black/dark brown seeded B. napus varieties of double low quality and 287 doubled haploid (DH) lines were produced. The segregation in the DH lines indicated that three to four gene loci are involved in the determination of seed colour. and yellow seeds are formed when all alleles in all loci are in the homozygous recessive state. A dominant gene governed white petal colour and is linked with an erucic acid allele that, in the homozygous condition, produces 26-28% rucic acid. Four gene loci are involved in the control of total GLS content where low GLS was due to the presence of recessive alleles in the homozygous condition in all loci. From the DH breeding population a yellow-seeded, yellow-petalled. zero erucic acid line was obtained. This line was further crossed with conventional B. napus varieties of double low quality and, following pedigree selection, a yellow seeded B. napus of double low quality was obtained. The yellow seeds had higher oil plus protein content and lower fibre content than black seeds. A reduction of the concentration of chromogenic substances was found in the transparent seed coat of the yellow-seeded B. napus.
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