| 1. | Mitochondrial genes and their expression : yeast
线粒体基因及其表达 |
| 2. | Mitochondrial genome , evolution
线粒体基因组 |
| 3. | Mitochondrial genome , overview
线粒体基因组 |
| 4. | 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。 |
| 5. | 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。 |
| 6. | 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。 |
| 7. | 4 gene rearrangements and proposed mechanisms of vertebrate mtdna vertebrate mitochondrial gene order was initially considered completely conserved
4脊椎动物线粒体基因重排及机制脊椎动物线粒体基因顺序最初认为是完全保守的。 |
| 8. | C - mos nuclear and 12s rrna mitochondrial dna were employed as genetic markers to deduce ( he phylogeny of gekkotan lizards in the present study 1
本文以核基因c - mos和线粒体基因12srrna为分子标记,对壁虎类蜥蜴的分子系统学进行了研究。 |
| 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. | Rearrangements have been occurred in at least twelve mitochondrial genes , which have drastically altered the gene order of the mitten crab e . japonica sinensis to the putative ancestral pancrustacean ( crustacean / insecta ) gene order
中华绒螯蟹线粒体基因组与推测的泛甲壳类原始的线粒体基因顺序相比,至少有12个基因发生了重排,造成线粒体基因排列顺序显著的变化。 |
