将粗山羊草细胞质导入普通小麦,研究其对普通小麦细胞核的遗传效应。
The genetic effects of Aegilops squarrosa L. cytoplasm were studied by transferring Aegilops squarrosa L. cytoplasm into wheat.
利用SDS-PAGE和分子克隆方法研究了易变山羊草的高分子量谷蛋白亚基及其基因。
The high molecular weight glutenin subunits and their encoding genes in Aegilops variables were characterized by SDS-PAGE and molecular cloning.
粗厚山羊草4X、6X种细胞质的光、温敏感性存在差异,6X种细胞质的光、温敏感性高于4X种细胞质。
By the way the cytoplasm of 6X Ae. crassa is more sensitive to the light length and temperature than 4X Ae. crassa.
研究结果表明,粘果山羊草中包含与小麦差异较大的籽粒硬度控制基因,为栽培小麦的品质改良提供了丰富的基因资源。
The results showed that Aegilops provide an extensive reservoir of genetic variation, which is available for incorporation into cultivated wheat by wide crossing.
研究结果表明,这个长度热点突变区的核苷酸序列分析是研究小麦与山羊草叶绿体基因组之间遗传变异关系的一个非常有效的途径。
The results indicate that the sequence analysis of the hotspot region is a very powerful tool to investigate genetic variations of chloroplast genome in Triticum and Aegilops.
研究结果表明,这个长度热点突变区的核苷酸序列分析是研究小麦与山羊草叶绿体基因组之间遗传变异关系的一个非常有效的途径。
The results indicate that the sequence analysis of the hotspot region is a very powerful tool to investigate genetic variations of chloroplast genome in Triticum and Aegilops.
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