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To explore the physiological functions of plastids other than photosynthesis, we examined the differences in transcription of nuclear genes.

为探明质体在光合作用以外的其它生理功能,检查了核编码基因的转录表达差异。

Polyphenol oxidase is a ubiquitous copper metalloprotein in the plastids of many plant species, fungi and insects.

多酚氧化酶是一类普遍存在于植物、真菌、昆虫的质体中,由核基因编码能与铜相结合的金属蛋白酶。

In addition, and unexpectedly, our analyses have uncovered detailed features of nucleosome structure.

另外,出乎意料地,我们的分析并没有覆盖核小体结构的详细特征。

Confirmed in the natural process of evolution, DNA variation may be a result of nucleosome structure varies speculation.

证实在自然进化过程中,DNA变异或许会因核小体结构的不同而有差别的猜测。

The exposure of DNA on the surface of the nucleosome explains why it is accessible to cleavage by certain nucleases.

DNA的暴露在核小体的表面,这解释了为什么它能被某些特定的核酸酶所切割。

Then, nucleosome chain is compressed into 30 nm solenoid structure.

然后,核小体链再进一步压缩形成30纳米的螺线管结构。

Our method provides an effective framework for studying nucleosome positioning and epigenetic marks in mammalian genomes.

我们的方法提供了一个高效的框架来研究哺乳动物的核小体定位和表观标记。

We have previously shown that knowledge about the structural class of the TF and information about nucleosome occupancy can be used to improve motif discovery.

我们先前已经表明TF结构类的知识和核小体占据的信息可以用来提高motif发现。

And we get the nucleosome structure. DNA wraps around histone about 2 loops.

在适当的参数条件下,得到了合理的结果,即DNA能够缠绕组蛋白约两圈形成准核小体结构。

The histone, nucleosome and DNA models were derived from their PDB ( http://www.rcsb.org/pdb/) structures and other published data.

组蛋白、核小体和DNA分子的结构,源自它们在PDB等公开资料中的数据。

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This one mode pays close attention to network credence foundation of the businessman very much.

这一模式非常关注商人的网络信用基础。

Cell morphology of bacterial ghost of Pasteurella multocida was observed by scanning electron microscopy and inactivation ratio was estimated by CFU analysi.

扫描电镜观察多杀性巴氏杆菌细菌幽灵和菌落形成单位评价遗传灭活率。

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双标记神经干细胞的增殖、分化活力与未标记神经干细胞相比无改变。