With the ISSR and microscopic method, Polygonatum odoratum and its counterfeit P. humile could be identified.
通过显微鉴定以及ISSR标记法可以将玉竹及其主要掺伪品区分开。
Groups based on ISSR markers were not in evidence with geographical regions.
基于ISSR分子标记划分的组群与地域性没有明显关系。
As a result, the ISSR marker technique can be used to carry out F1 hybrid identification and study the genetic relationship of tree peony cultivars.
研究结果表明,ISSR标记技术可以用来研究牡丹的杂交f 1代的鉴定以及品种间遗传与演化关系。
Vitis germplasm were used as materials for analyzing their genome polymorphism by ISSR markers. 15 primers selected from 60 primers were used for ISSR amplification.
利用ISSR标记对15份葡萄材料进行了基因组多态性分析,从60条引物中筛选出15条用于葡萄的ISSR扩增。
The results also indicated that ISSR markers could be used in the study of rice relationship and rice cultivar identification.
说明ISSR分子标记结果与系谱的关系是吻合的,可以将其应用于品种亲缘关系的研究和品种鉴定中。
By using RAPD, ISSR and SSR three molecular marks, we revealed the variation sizes and the genetic structures at individual or colony levels.
作者分别用RAPD、ISSR和SSR三种分子标记方法,在野生莲个体和群体水平上分析了遗传变异的大小及其遗传结构。
For 12 species, ISSR markers had higher marker utility than that of SSR markers. But SSR markers were fit to related species analysis.
在12个种间,ISSR标记表现出更高的标记效率,SSR标记则更适于近亲缘物种分析。
The results from ISSR molecular markers showed obvious correlation with the agronomic characteristics classification and the geographical distribution of the bottle gourd accessions .
ISSR分子标记的分类结果与瓠瓜的农艺性状分类和地理分布有一定的相关性。
According to the data of RAPD and ISSR molecular markers of the leaf samples, UPGMA cluster was made at population level and individual level.
分别依据古银杏叶片样品的RAPD和ISSR标记数据,进行了群体和单株聚类分析。
Genetic diversity of 16 accessions of Secale L. , representing 4 species and 8 subspecies, was evaluated using inter-simple sequence repeat (ISSR) markers.
对黑麦属4个种8个亚种共16份材料进行ISSR标记分析的结果表明,被测材料间ISSR标记多态性较高。
Constrasted with previous studies and this study, found that ISSR marker can be used a more efficient analysis tool.
通过与前人研究结果对比,ISSR标记可以作为一种更有效、更准确的遗传分析工具。
Conclusion: ISSR molecular maker technology is useful for identifying species and habitats of medical Dendrobium plants.
结论:ISSR分子标记可用于药用石斛的种类和产地鉴定。
Conclusion: ISSR molecular maker technology is useful for identifying species and habitats of medical Dendrobium plants.
结论:ISSR分子标记可用于药用石斛的种类和产地鉴定。
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