Using WCR lines with CMS cytoplasm as female parent to develop new restorer lines by backcrossing.
以同质广亲和恢复系为母本转育新的恢复系。
The R534 and R136 were two good restorer lines in breeding application for their fine combining ability and integrate agronomic traits.
恢复系R534,R136的配合力和综合性状都比较好,是两个具有较好应用前景的恢复系。
This study focus on selection of disease-resistant restorer lines through two approaches of microspore culture and marker assisted selection.
本研究以小孢子培养和分子标记辅助选择两种途径来选育抗病的恢复系。
The molecular phylogenetic trees constructed by UPMGA method showed the genetic relationship among 31 restorer lines, which was identical with pedigree analysis.
由UPMGA方法得到的聚类分析结果表明了31个恢复系间的亲缘关系,聚类结果与它们的系谱关系基本吻合。
The gene for wide compatibility was different from that for restorability. which means that they can be recombined each other to form widely compatible restorer lines.
水稻的广亲和性与恢复性在本质是不同的,两种特性基因可以重组于一体。
In the experiment, the combining-mating screening method in breeding restorer lines of 6311S was designed according to the gamete selection applied in hybrid maize breeding.
借鉴杂交玉米育种中的配子选择法,设计了6311S配套恢复系选育的组合判别法研究。
WA type Cytoplasmic Male Sterile (CMS -WA)lines have being widely applied to hybrids of indica rice, but restorer lines were hardly found when CMS -WA was transferred into japonica rice.
野败(WA)型细胞质的不育系在籼型杂交稻中应用广泛,将WA型细胞质导入粳稻后发现其恢复系较难找到。
It had an important value for breeding new restorer lines resistant to blast and new male-infertile lines resistant to blast and new high-yield hybrid rice combinations resistant to blast.
这些种质资源对选育新的抗病恢复系和抗病不育系以及高产抗病杂交稻新组合具有重要利用价值。
With 16 hybrid rice male sterile lines, restorer lines and combinations as materials, a capillary electrophoresis detection method with fluorescent SSR markers in rice was primarily developed.
以16个杂交水稻不育系、恢复系及组合为材料,初步建立了水稻品种SSR荧光标记毛细管电泳检测方法。
Moreover. some new widely compatible restorer lines widely compatible varieties(lines) were found, and an inter-subspecies cross Pinggai A /DT713 with highly significant heterosis was developed.
本研究还初步筛进到一些新的广亲和品种、广亲和恢复系及一个强优势亚种间组台萍改A/DT713。
Three male sterile lines (K83 (21) 35a, K149A and V149A) involved two pairs of genes, while the number of restorer gene of V83 (21) 35a was different in different genetic background.
V149A三个不育系的育性恢复均受两对基因控制,V83 (21)35a的育性恢复所需基因数目在不同遗传背景中不同。
Three male sterile lines (K83 (21) 35a, K149A and V149A) involved two pairs of genes, while the number of restorer gene of V83 (21) 35a was different in different genetic background.
V149A三个不育系的育性恢复均受两对基因控制,V83 (21)35a的育性恢复所需基因数目在不同遗传背景中不同。
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