Overcoming method of character inheritance instability of cabbage type rape yellow seed
A genetically unstable, cabbage-type rape technology, applied in the directions of botanical equipment and methods, applications, plant genetic improvement, etc., can solve the problems of low yellow seed degree, unstable cabbage-type rape yellow seed rate, etc., and achieve melanin Low content, high feed utilization value, and the effect of maintaining fragrance
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example 1
[0024] Brassica-type yellow-seed material × cabbage-type black-seed material, hybrid offspring bred into a cabbage-type brown-yellow seed material, using this material as the female parent, crossed with 20 cabbage-type black-seeded materials, observing the grain color performance of the F2 generation, and selecting the middle grain color Better single plant selfing, after 3 generations of directional selection, the lines with better grain color and more stable genetics in the offspring of different combinations were crossed with each other, and 2 rounds of recrossing were used to aggregate the yellow and brown seed materials from 8 different sources. Seed micro-effect multiple genes, and finally bred a cabbage-type yellow-seeded double-low strain. After 5 consecutive generations of observations, the yellow seed rate of this strain was 100% (no black and brown seeds in the offspring), and the yellow seed degree reached 90% (close to the cabbage-type yellow seed). the bright yell...
example 2
[0026] Cabbage-type yellow-seeded material×Brassica-type black-seeded material, the hybrid offspring bred into a cabbage-type brown-yellow-seeded material, using this material as the female parent, crossed with 10 cabbage-type black-seeded materials, observing the grain color performance of the F2 generation, and selecting the middle grain color Better single plant selfing, after 3 generations of directional selection, the lines with better grain color and more stable genetics among the progeny of different combinations are crossed and recrossed with each other, and yellow seeds from different sources of brown and yellow seed materials are aggregated. Finally, a cabbage-type yellow-seeded double-low strain was bred. After 5 consecutive generations of observations on this strain, the yellow seed rate was 100% (the offspring had no dark brown seeds), and the yellow seed degree reached 90% (close to the bright yellow color of cabbage-type yellow seeds). ).
example 3
[0028] The Canadian cabbage-type yellow-seeded material Sban was used as the male parent to cross with 8 Brassica napus lines, and the offspring underwent 8 generations of self-crossing and directional selection to obtain a batch of brown-yellow and genetically stable cabbage-type yellow-seeded materials. After 2 rounds of recrossing, yellow-seed micro-efficiency polygenes from 4 brown-yellow-seed materials were aggregated, and the offspring underwent 5 generations of self-crossing and directional selection, and finally a cabbage-type yellow-seed double-low line was bred. The line has been observed for 4 consecutive generations, and the yellow seed rate is 100%, the yellow seed degree reaches 90%, and the agronomic yield traits are good.
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