简单重复序列广泛分布于原核和真核基因组。
Simple Sequence Repeat is ubiquitous in prokaryotic and eukaryotic genomes.
像其他古生菌一样,这种古生菌的基因组同时与真核生物和细菌的基因组具有一些相似性。
Like other archaeans, their genomes share some similarities with both eukaryotes and bacteria.
这是第一次从原核到真核再到原核生物的跨生物种类的基因组转移。
This is the first time that genomes have been transferred between branches of life—from a prokaryote to eukaryote and back to a prokaryote.
论文的第三部分是真核生物基因识别和基因组结构分析。
The third part analyzes the genome structure of Arabidopsis thaliana and develops an ab initio eukaryotic gene recognition program.
真核生物对维持基因组的稳定性及防止非整倍体的产生,有其一套完整的保护机制,即细胞周期调控、检验点调控以及对损伤DNA的修复。
To ensure genome integrity and prevent aneuploidy, eukaryotes have evolved an integrated protective mechanism, including cell cycle control, checkpoint control, and DNA repair.
当类似古细菌的细菌存在于形态组织及基因组中时,其基因组复制方法表现出类似真核样。
While archaea resemble bacteria in morphology and genomic organization, they resemble eukarya in their method of genomic replication.
微卫星DNA是广泛分布于原核、真核生物基因组中的短小串联重复的DNA序列。
Microsatellite DNA is short tandem repeats of DNA sequences, which is widely distributed in prokaryotic and eukaryotic genome.
真核生物的基因组由基因和基因间区组成。
Eukaryotic genomes are composed of individual genes and their intergenic regions.
真核生物的基因组dNA连同带正电荷的组蛋白和其它核蛋白组成了染色质。
The genomic DNA of eukaryotes together with positively charged histone proteins and other nuclear proteins comprises chromatin.
酵母基因组的易操作性及其简单稳定的培养条件,使得该真核微生物成为一种理想的药物筛选工程细胞。
The characteristics of easy genetic manipulation and simple and steady culture conditions for yeast have made this eukaryotic microorganism an attractive option for drug screening.
酵母基因组的易操作性及其简单稳定的培养条件,使得该真核微生物成为一种理想的药物筛选工程细胞。
The characteristics of easy genetic manipulation and simple and steady culture conditions for yeast have made this eukaryotic microorganism an attractive option for drug screening.
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