It shows that repeat of the RAPD analysis is poor.
这说明在本实验中RAPD分析的重复性较差。
Methods Random amplified polymorphic DNA (RAPD) the method was used.
方法使用随机引物扩增多态dna (RAPD)技术。
The principle of optimizing the RAPD reaction factors was described .
并阐述了优化RAPD实验体系的设计原则。
Application of RAPD Technique in Genetic Relationship Study of Silk Insect I.
RAPD分析在绢丝昆虫亲缘关系研究中的应用i。
Methods: The strains are analyzed using random amplified polymorphic DNA (RAPD).
方法:采用随机引物扩增技术(RAPD)对菌株进行分析。
The DNA drown by the method in this paper could completely suitable for RAPD analysis.
经本文所描述的方法得到的DNA,完全能满足随机扩增多态性DNA(RAPD)分析。
The value of RAPD fingerprints in evolution and relationship study was also discussed.
本文还对RAPD指纹在亲缘演化关系研究中的价值进行了讨论。
By using different primers, the intraspecies variation of RAPD profiles was different.
采用不同引物进行扩增时种内变异的程度有所不同。
This research carried out RAPD markers for 24 different type tobacco core germ plasms.
本研究对24个不同类型烟草核心种质进行了RAPD标记。
The multi-primer RAPD analysis is an excellent method in typing Pseudomonas aeruginosa.
多种引物RAPD分析是判断铜绿假单胞菌流行情况的有利工具。
Analyzed the genome DNA of high-protein wheat of T4 and CK by 34 random primers using RAPD.
选用34个随机引物对T4代高蛋白小麦和对照的基因组d NA进行分析。
Relationships and parental specific markers among sugarcane germplasm were analyzed with RAPD.
采用RAPD技术分析甘蔗种质间的亲缘关系及特异标记。
In the two analyses different 19 peanut cultivars were analyzed by RAPD technique respectively.
本实验进行了两次RAPD分析,每次选用19个花生品种。
Objective Exploring the feasibility of RAPD technique for identification of food spoilage yeast.
目的探索采用RAPD技术对食品污染酵母进行分类鉴定的可行性。
DNA Extracted from Nanyang yellow cattles hair follicle and blood was used to RAPD amplification.
从南阳黄牛被毛毛囊细胞和血液中分别提取DNA用于RAPD扩增。
Conclusion CTAB Method and RAPD reaction system can be used to RAPD analysis in Rhizoma Coptidus.
结论CTAB法及黄连药材的RAPD反应体系可以用于黄连药材的RAPD分析。
Relationship between Xuwen and Hainan yellow cattle was studied with RAPD technology using Holstein.
本文用RAPD方法以荷斯坦牛作对照分析了徐闻黄牛与海南黄牛的关系。
Putong peach had higher genetic similarity and frequency of gene exchange by dendrogram of RAPD bands.
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。
Random amplified polymorphic DNA(RAPD) typing was carried out to analyze the homology of the isolates.
应用随机扩增DNA多态性分析技术(RAPD)分析产金属酶菌株的同源性。
Our results showed that RAPD correction can improve the reproducibility of RAPD analysis significantly.
结果表明,RAPD校正能显著地提高RAPD扩增的重复性。
Genomes of the donor, the receptor and the two kinds of rice variant lines were analyzed using RAPD assay.
采用RAPD技术对供体大豆、受体水稻和两种水稻变异株系的基因组进行了多态性分析。
The possibility of application of RAPD technique on identification of watermelon hybrid purity was discussed.
本文还针对RAPD技术在西瓜杂交种纯度鉴定上实际应用的可能性进行了讨论。
Optimizing condition of RAPD improved veracity and repetition of RAPD anaLysis, and insured reaLity and nicety.
并对RAPD反应的条件进行了优化,提高RAPD分析的可靠性和重复性。
RAPD analysis will provide a new path for identification and classification of ancient litchi genetic resources.
应用RAPD技术为荔枝古树遗传资源的鉴定和分类提供了新的途径。
RAPD with appropriate primer could be a good screen tool for epidemic surveillance of MRSH infection in hospitals.
在有适合引物的条件下,RAPD可以作为判断MRSH医院感染流行的初筛工具。
Conclusion RAPD could differentiate the common and respective gene fragments of the 8 isolates of Cryptosporidium.
结论RAPD技术能鉴别8个隐孢子虫分离株共有和各自特有基因片段。
The application of RAPD markers to the studies on germplasm and breeding of aquatic commercial animals are outlined.
本文概述了RAPD技术在水产经济动物种质资源鉴定和遗传育种研究中的应用情况。
Methods The optimum reaction systems of RAPD were obtained by single factor design and response surface design (RSD).
方法应用单因素设计和反应曲面设计(rsd)进行RAPD反应体系的优化。
With microbe morphologic and RAPD technique, we made a fringe identification of inherited background of the transformant.
应用微生物形态学和RAPD技术,对转化子的遗传背景进行鉴定。
With microbe morphologic and RAPD technique, we made a fringe identification of inherited background of the transformant.
应用微生物形态学和RAPD技术,对转化子的遗传背景进行鉴定。
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