eukaryote

1. As a late-branching eukaryote, G.lamblia may have special mechanisms for regulating gene expression which differ from other eukaryotes.
   作为一种源真核生物，其基因表达调控机制可能与其他真核生物有较大的区别。
2. Recognition of Translation Initiation Site and Splicing Site in Eukaryote Genome; Besides, the relation between shear force and relative plastic shear displacement is also presented.
   真核生物中翻译起始位点与剪接位点的识别此外，还得到了不同含水量时剪力-塑性剪切位移的关系。
3. The evolution of Giardia has commanded a level of attention matched by few other organisms because it differs from the "textbook" eukaryote in many ways.
   对兰伯贾第虫的进化一定程度的关注在于它不能和其他生物相对应，因为它和经典教科书式的真核生物在许多方面不同。
4. The paper has summarized development of biochemical component and ultrastructure of heterochromatin in eukaryote with an introduction to the development of ultrastructure in centromere.
   概述了异染色质生化组成及其在超微结构方面的研究进展，着重介绍了着丝粒的异染色质超微结构研究。
5. Serine hydroxymethyltransferase ( SHMT) is widely distributed in nature, being found in prokaryote and eukaryote and catalyzes the reversible interconversion of serine and glycine.
   丝氨酸羟甲基转移酶（SHMT）在自然界中普遍存在，它的生理学功能是催化丝氨酸和甘氨酸之间可逆的互换。
6. It is this nucleus that gives the eukaryote literally, true nucleus its name.
   正是这些细胞核给了真核细胞-照字面意思，真的细胞核-的名字。
7. This ancestor was a single-celled aquatic eukaryote, and would have had the common features of animal and plant cells described above.
   它是单细胞水生真核生物，并应该具备上述动物和植物细胞的共同特点。
8. The most fundamental dividing line between living organisms is that between prokaryote and eukaryote cells.
   生物首先划分为原核生物与真核生物。
9. This is the first time that genomes have been transferred between branches of life& from a prokaryote to eukaryote and back to a prokaryote.
   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。
10. Strategies of Gene Targeting in Eukaryote
    真核生物中基因打靶的策略
11. So mouse ERA protein may play important role in eukaryote cell cycle.
    所以，鼠ERA蛋白在细胞周期中发挥重要作用。
12. HCV El cDNA expression, antigenity and immunity of El protein from E. coli and eukaryote cells were overall analyzed.
    全面研究了HCVe1cDNA在大肠杆菌和真核细胞中表达的HCVe1蛋白的抗原性和免疫原性。
13. In recent years it is found that this signal transduction mechanism not only lies in prokaryote but also in eukaryote such as yeast, slime mold and plant. It involves in the regulating to infiltrate stress and hormone signal transduction.
    近年来的研究表明这一信号传递机制不仅存在于原核生物也存在于许多真核生物如酵母，黏菌和植物中，参与对渗透压和激素信号传递的调节作用。
14. Actin is a kind of highly conserved protein, existing in all eukaryote.
    肌动蛋白（actin）是一种高度保守的蛋白质，存在于所有真核细胞中，参与细胞分裂、运动、迁移、形态的维持、生长等多种重要生理活动。
15. Total RNA was isolated from epidermis of psoriasis patients and mRNA was reversely transcribed into cDNA. The epitope genes were inserted into prokaryote ( pGEX-4T-1) and eukaryote expression vector ( pCR3.1).
    从银屑病皮损表皮中提取总RNA，反转录成cDNA，常规方法将目的基因插入原核表达载体pGEX-4T-1和真核表达载体pCR3.1，表达和纯化相应蛋白和表位肽段。
16. The remarkable difference between prokaryote E. coli and eukaryote Yeast at translation region is reflected.
    coli和真核生物Yeast翻译起始区域的显著差异；
17. CONCLUSION: Two alternative splicing genes play important roles in the eukaryote cell cycle.
    结论：两种剪接形式鼠Era蛋白在真核细胞周期中发挥重要作用。
18. Our experiment results demonstrated that a framework similar to NM-IF scaffold in mammalian cell appeared in primitive eukaryote.
    实验结果表明，在原始真核细胞中已经出现了类似于哺乳动物细胞的核骨架和中间纤维，并提示核骨架-中间纤维细胞骨架体系可能起源于真核细胞起源早期。
19. Microsatellites, simple sequence repeats ( SSR), are distributed throughout the eukaryote genomes.
    微卫星序列广泛存在于各类真核基因组中，是一种简单序列重复（Simplesequencerepeats，SSR）。
20. Study on the Expression in Eukaryote Cell, Gene Regulation Effect and Carcinogenesis of the HBV X Gene
    HBV－NC1株X基因在真核细胞中表达，基因调控与致癌作用的初探
21. VAMP-2 is a membrane receptor protein widely distributed in eukaryote and plays an important role in exocytosis, signal transduction, intracellular traffic and secretion.
    VAMP-2是真核生物中的一种膜受体蛋白，该蛋白在真核生物的胞吐、信号传导、胞内运输和分泌等活动中起到重要作用。
22. Studying alternative splicing mechanism is of great significance to understanding eukaryote gene regulation.
    研究基因的可变剪接对理解真核生物基因调控具有十分重要的意义。
23. Noncoding RNAs and Eukaryote Gene Expression Regulation: from Chromosomes to Proteins
    非编码RNA与真核生物基因表达调控：从染色体到蛋白质
24. Expression of Nucleocapsid Gene of Porcine Circovirus Type 2 in Prokaryote and Eukaryote System
    猪圆环病毒2型核衣壳蛋白基因在原核和真核系统中的表达
25. The Homeobox genes, as transcriptional factors, play a vital role in regulating the development and cellular differentiation in eukaryote.
    同源异型盒基因作为一类转录调控因子，在真核生物的个体发育及细胞分化的调控中起着重要作用。
26. The ubiquitin-proteasome system of the eukaryote plays an importance role in the process of endogenous antigen degradation.
    在内源性抗原的加工提呈途径中，真核细胞中的泛素&蛋白酶体系统对内源性抗原蛋白发挥着重要的降解功能。
27. In eukaryote, genomic DNA is packaged in chromatin by twining with histone octamer.
    基因组DNA包含了绝大部分的遗传物质，对于真核生物而言，DNA缠绕组蛋白八聚体形成核小体，进而被包装在染色质内。
28. In Eukaryote, several transcription factor binding sites constitute cis-regulatory module ( CRM), providing more complex regulation for expression of neighboring genes.
    在真核生物中，多个转录因子结合位点组成顺式调控模块（CRM），对临近的基因的表达提供着更为复杂的调控功能。
29. The study of the toxicity of ENPs to bacteria would supply theory for eukaryote.
    研究ENPs对微生物的毒性效应，可以为真核生物的纳米安全性研究提供理论依据。
30. The eukaryote cell nucleus is a strict compartmentalization architecture containing diverse subnuclear organelles.
    真核生物细胞核是一种严格区室化、高度不均一的组织结构。

noun

1. an organism with cells characteristic of all life forms except primitive microorganisms such as bacteria

   Synonym:    eucaryote