Prokaryotes

Each eukaryotic cell possesses two map gene copies while prokaryotes have only one copy in each genome , according to the papers so far .

迄今为止报道的所有真核细胞都含有两个该基因拷贝，而原核细胞只含有一个拷贝。

Cyclic AMP in Prokaryotes and its Physiological Functions

原核微生物的环化AMP及其某些生理功能

A improved screening system for molecular identification of prokaryotes is suggested .

提出了比较系统和完整的原核生物分子鉴定分类的筛选体系。

Heat stress response occurred in elevated temperature from Prokaryotes to human being .

热应激反应是指从原核生物到人类在高温环境下发生的应激反应。

Denitrification by prokaryotes is an important part of the global nitrogen cycle .

微生物的反硝化作用是自然界氮素循环的重要环节。

Analysis of Gene and Genome Structures in Prokaryotes

原核生物基因及基因组结构分析

Prokaryotes gene identification based on nonlinear SVM

基于非线性支持向量机的原核生物基因识别

The fidelity of DNA replication in prokaryotes is discussed in this paper .

本文概述了促成原核生物DNA复制准确性的因素。

Vacuum extraction of fastidious prokaryotes limited in plant vascular bundle

植物维管束内寄生难养菌类的提取

DNA base damage exists in almost all living species , both prokaryotes and eukaryotes .

DNA碱基损伤广泛存在于原核生物和真核生物中。

It is well known that the processes of transcription and translation are coupled in prokaryotes .

原核生物转录与翻译过程是耦联的。

To date , homologous recombination , gene knockout technology remains the main tool for study of gene expression in prokaryotes .

迄今为止，同源重组，基因敲除等技术仍然是研究原核生物中基因表达的主要工具。

Discussion is made on the recent advances in new techniques for a rapid , sensitive and specific detection for phytopathogenic prokaryotes .

本文讨论了近年来发展起来的特异性强、灵敏度高、快速的植物病原原核微生物检测新技术的原理及应用现状。

Antimicrobial peptides are found both in prokaryotes and eukaryotes .

抗菌肽在原核生物与真核生物中都存在。

Classification and affiliation of plant pathogenic prokaryotes

植物病原原核生物的种类及其分类

Hsp-s is a highly conserved protein family widespread in eukaryotes and prokaryotes .

Hsp-s是一种高度保守的蛋白质家族，广泛存在于真核生物和原核生物中。

Cyanobacteria are photosynthetic prokaryotes with many characteristics that make them a potentially ideal model for the study of a variety of biological processes .

蓝藻是一类光合自养原核生物，可作为各类生化过程研究的理想模式。

Organisms can be divided into prokaryotes and EUKARYOTES , the latter having a true nucleus .

生物可被分为原核生物和真核生物，后者具一个真正的细胞核。

Phylogenetic Diversity of Prokaryotes and The Main Functional Groups in A UASB Reactor Treating Bean Curd-farm Wastewater

豆腐废水UASB反应器中的原核生物多样性及主要功能菌群

Both in the eukaryotes and prokaryotes , correct disulfide bond formation of secreted proteins is very important .

不管是在真核生物还是原核生物中，分泌蛋白正确二硫键的形成是非常重要的。

To protect themselves , organisms , starting from prokaryotes , have developed mechanisms for the recognition and elimination of pathogens .

生物为了防御，从原核生物便开始发展出辨识及移除病原体的各种机制。

Prokaryotes constitute the kingdom Bacteria ( formerly the Prokaryotae ) .

原核生物组成细菌界（原先为原核生物界）。

Cyanobacteria are prokaryotes capable of oxygenic photosynthesis , and are one of the most popular model organisms for photosynthesis research .

蓝藻是一类能进行放氧光合作用的原核生物，也是研究光合作用的模式生物之一。

Adenine methylation plays important roles in restriction-modificaton system , DNA replication , DNA mismatch repair and gene expression regulation in prokaryotes .

其中腺嘌呤甲基化在原核生物限制-修饰系统、DNA复制、DNA错配修复和基因表达调控中发挥着重要的作用。

Lipid biomarker records show distinct increase in the abundance of cyanobacteria , anaerobic prokaryotes and other autotrophic microbes .

同时生物标志化合物资料也表明蓝细菌、厌氧微生物和其他的自养微生物功能群丰度明显增高。

DNA repair enzymes have evolved to protect prokaryotes and eukaryotes from the mutagenic effect of DNA damage and preserve genomic integrity .

DNA修复酶是一类能保护生物体免受各种DNA损伤的毒性效应和保证遗传信息完整性的重要酶蛋白。

Unlike in prokaryotes , there are many non-coding sequences in eukaryotes , including intron and intergenic sequence .

真核生物基因组中含有大量的非编码序列，其中主要是内含子和基因间隔序列。

Furthermore , it summarizes the search results organism-wise for prokaryotes and chromosome-wise for eukaryotes .

此外，它总结了搜索原核生物的生物体方面和真核生物的染色体方面的结果。

The major and extremely significant difference between prokaryotes and eukaryotes is that eukaryotic cells contain membrane-bound compartments in which specific metabolic activities take place .

原核生物与真核生物之间最大也是最主要的区别就在于真核细胞在特殊的代谢活动发生的地方包含了拥有膜包围的间隔间。

DNA methylation is a kind of post-replicative modification and it is conserved from prokaryotes to eukaryotes .

DNA甲基化是一种DNA的复制后修饰形式，主要发生在胞嘧啶嘧啶环的第5位，并且这种修饰方式从原核生物到真核生物高度保守。