Levels of mitochondrial DNA - a female genetic marker only carried down the female line - is similar all along the coast, regardless of language.
不管语言,沿海岸线的线粒体dna的层级——一个女性基因标记只携带了女性线链——是相似的。
To trace the source of meat, or even leather goods, scientists can use DNA barcoding, which uses a short genetic marker from the sample to identify it.
科学家可以使用基因条形码技术(通过来自样本的短基因标记来识别物种的技术),可以追朔肉甚至是皮革商品源于什么物种。
AFLP has been emerged as a major new type of genetic marker with broad application in systematic, pathology, population genetics, DNA fingerprinting and quantitative trait loci (QTL) mapping.
AFLP已广泛应用于分类学、病理学、种群遗传学、DNA指纹分析的研究和建立数量性状基因图谱,成为最主要的遗传标记。
Mitochondrial DNA as an ideal genetic marker has been successfully applied to the study of population and evolutionary genetics of crabs.
线粒体d NA作为理想的分子遗传标记已被广泛用于蟹类种群遗传学和进化遗传学的研究,并取得了许多有意义的结果。
This article gives a brief account of the origin and theory of RAPD in DNA molecular marker and its meet up-to-date research and application development in genetic breeding and other fields.
概述了DNA分子标记中rapd的由来及其原理,叙述了RAPD在遗传学理论、遗传育种等许多方面的作用和最新研究应用进展。
With DNA marker increasing and gradual development of animal genome plan in many countries, the research of genetic linkage map has been made enormous achievements on animals.
随着DNA分子标记不断增加和各国对畜禽基因组计划的逐步开展,一些重要的畜禽(如牛、猪、绵羊、鸡等)的遗传连锁图谱的研究工作取得了巨大的成就。
As it has many characteristics of DNA marker, RMAPD has a widest potential application in animal breeding and genetics, such as analysis of genetic structure and relationship and MAS.
该方法也具有DNA标记的特点,在群体遗传结构和亲缘关系分析以及标记辅助选择等遗传育种领域具有广阔的应用前景。
DNA molecular marker is able to express genetic information accurately for its excellence of stability, accuracy and security.
DNA分子标记所具有的稳定性、准确性和可靠性使其能够准确的反映生物的遗传信息。
The genomic DNA PCR indicated that the genetic homogeneity between NIL-PL01 and NIL-APL01 reached 98.6%, which were being used in screening the molecular marker linked to apetalous trait.
利用随机引物对基因组DNA扩增结果表明,NIL -PL0 1和NIL -APL0 1之间多态性差异较小,遗传同质性达98.6 % ,该材料正用于筛选与无花瓣性状紧密连锁的分子标记。
The genomic DNA PCR indicated that the genetic homogeneity between NIL-PL01 and NIL-APL01 reached 98.6%, which were being used in screening the molecular marker linked to apetalous trait.
利用随机引物对基因组DNA扩增结果表明,NIL -PL0 1和NIL -APL0 1之间多态性差异较小,遗传同质性达98.6 % ,该材料正用于筛选与无花瓣性状紧密连锁的分子标记。
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