进而通过计算遗传相似系数进行聚类分析。
The genetic similar coefficient was calculated and cluster analysis was conducted.
新收集材料与其它资源间的平均遗传相似系数为0.1918。
The average similarity coefficient of newly-collected materials with other ones was 0.1918.
其中近等基因系与不育系间的遗传相似系数达到了0.967。
The similarity coefficient were 0.967 between the cytoplasmic male-sterile line and NIL.
将表型的18个数量性状进行聚类分析,发现各品种间的遗传相似系数高;
The results of cluster analysis in 18 quantity characters demonstrated that there was a high proximity between varieties.
从RAPD带型聚类图分析,普通桃类的遗传相似系数较高,基因交换频繁。
Putong peach had higher genetic similarity and frequency of gene exchange by dendrogram of RAPD bands.
并基于遗传相似系数、采用UPGMA法对这些地方品种的遗传关系进行了研究。
And according to the genetic similarity coefficient, the genetic relationship among these local varieties was researched by UPGMA method.
根据ISSR遗传相似系数划分的类群主要同染色体数目有关,也与地理分布有一定关系。
The species divided according to ISSR genetic similarity factors are mainly associated with chromosome number and to some extent with their geographic distribution.
菌系间的遗传相似系数变化在0.45 ~ 0.93之间,多数菌系间的同源程度较低。
Genetic similarity coefficients within the isolates were among 0.45 ~ 0.93, there existed a low degree of homogeneity between most of them.
利用POPGENE32软件分析遗传相似系数,UPGMA方法聚类,构建亲缘关系系统图。
The systematic diagram of genetic relationships was established by POPGENE32 software and clustered by UPGMA method.
这表明这些材料之间有相似的遗传背景,部分种质间的遗传相似系数较高,但总体相互间又存在一定的差异。
This shows that between these materials similar genetic background, some of germplasm with high genetic similarity, but the overall mutual Also there are some differences.
利用NTSYS进行UPGMA聚类分析后,发现这12种材料在遗传相似系数0.696为阀值处可以分为3个类群。
For UPGMA cluster analysis, 12 Oryza species were classified into three cluster groups with the similarity coefficient of 0.696 using the software NTSYS.
结果RAPD标记检测得到的群体遗传相似系数和多态位点比率分别为0.942和26.98%;aflp标记检测得到的群体遗传相似系数和多态位点比率分别为0.874和31.4%。
Results the rates of the polymorphic loci and the genetic similar index of population by RAPD marker were 26.98% and 0.942 respectively, and that by 31.4% AFLP and 0.874 respectively.
计算各样本间的相似性系数和遗传距离,并采用UPGMA法对遗传距离进行了聚类分析。
Genetic similarities were calculated using simple matching coefficient, and the phenogram was constructed by using UPGMA method. Three cultivars of n.
来自我国西南以及日本两地区的小豆种质遗传离散度较大,遗传分化系数、相似系数平均值较低。
The material from Southwest China and Japan has relatively high genetic dispersion, low Gst and average value of genetic similarity coefficient.
两个群体间的相似性系数高达0.9187,彼此间的遗传距离仅为0.0848,体现出两个人工选育群体的遗传分化程度较低。
Nei's genetic identity and genetic distance between the two populations were 0.9187 and 0.0848, respectively, which indicated low genetic differentiation between the two populations.
相似性分析结果显示:不同菌株之间遗传相似性系数相差较大。
Similarity analysis showed that genetic similarity coefficient between different strains has large difference.
其余菌株在相似系数0 75 44时,可分为6个大的类群,说明供试菌株间存在较大的遗传差异。
All the other isolates had been divided into 6 groups when the similarity coefficient was 0.7544, which...
其余菌株在相似系数0 75 44时,可分为6个大的类群,说明供试菌株间存在较大的遗传差异。
All the other isolates had been divided into 6 groups when the similarity coefficient was 0.7544, which...
应用推荐