| 1. | The construction of m . reevesi mitochondrial genome library and sequence analysis
文库的建立和序列分析 |
| 2. | At least 35 arthropoda mitochondrial genomes were sequenced so far
现在已有35种节肢动物的线粒体dna全序列被测定。 |
| 3. | Mitochondrial genome , evolution
线粒体基因组 |
| 4. | Mitochondrial genome , overview
线粒体基因组 |
| 5. | Dna sequences of the entire mitochondrial genome from mammals and african clawed frog suggested that all vertebrates shared a common gene order
从非洲爪赠到人类的线粒体基因组都具有共同的基因顺序。 |
| 6. | The 12940 bp nucleotide sequence of the mitochondrial genome of a brachyura dacapod , eriocheir japonica sinesis , was determined
测定了短尾类十足目动物中华绒螯蟹的线粒体基因组12940bp的核苷酸序列。 |
| 7. | The complete mitochondrial genome and phylogeography of the rice frog from china ( fejervarya limnocharis ) were studied in the present research
本文主要从线粒体基因组和种群系统地理学等两个方面对中国泽蛙进行了研究。 |
| 8. | In addition , we also analyse the reason why our result is not consistent with previous work , and detailedly discuss the pitfalls of phylogenetic analyses based on the complete mitochondrial genomes
另外我们探讨了我们的结果与前人的研究不同的原因以及利用线粒体全基因序列进行系统发生分析存在的偏差。 |
| 9. | However , with the mtdna sequences have been increasingly determined for vertebrate genomes , the rearranged and repeated genes had been found in many taxa . based on the complete mitochondrial genome
在我们测定的泽蛙线粒体基因组基础上,通过研究genbank中200多种脊椎动物的线粒体全基因中发生基因重排的类群,总结出脊椎动物线粒体基因重排的特点。 |
| 10. | Moreover , we also explore the mechanisms of gene rearrangements and taxonomic status of the rice frog . basing on the characteristics of the morphology and mitochondrial genome , we agree with the opinion of separating f . limnocharis from original genus rana
另外还探讨了线粒体基因重排机制和泽蛙的分类地位,根据形态学和线粒体基因组的特点,我们认为将泽蛙从传统蛙属rana中分出的观点是合理的。 |
