drosophila
美 [drɒ'sɒfɪlə]英 [drɒ'sɒfɪlə]
- n.果蝇(常用于实验)
- 网络果蝇属;果蝇真奇妙;果蝇中建立
复数:drosophilas 复数:drosophilae
drosophila
drosophila
果蝇
...学院,广西 541004) 【摘 要】 目的:利用果蝇(Drosophila)为试验材料,统计子代的表型数目, 目的 从 F2 表型比例中寻 …
果蝇属
属于果蝇属(Drosophila)和与其密切有关的花果蝇属(Scaptomyza)的500多个果蝇种都只为夏威夷所特有。这些夏威夷种 …
果蝇真奇妙
...验暨生物技术学系 09:40~10:10 2 小小果蝇真奇妙(Drosophila) 吴君泰教授 台大医学院分子医学研究所 10:10~10:30 休 息 1…
果蝇中建立
...控系统,但是经过几代科学家的努力,这个系统最早是在果蝇中建立(Drosophila),后来在小鼠、家蚕、爪蟾、斑马鱼、拟 …
果蝇类
最好的果蝇类(Drosophila)测量系统 实时测量单个苍蝇 多个动物扫描和RQ测量 数据获取可完全自动化 土壤/污泥系统Sable Syst…
果蝇的三点试验
Drosophila 果蝇的三点试验... ... Drosophila 果蝇 drosophila 果蝇的三点试验 ...
果蝇身上
...在分子水平上的一个重要研究领域,目前该研究主要集中果蝇身上(Drosophila)。
果蝇基因组数据库
这个数据库最开始起源于三个模式生物的数据库:果蝇基因组数据库(Drosophila)、酵母基因组数据库(Saccharomyces Gen…
1
Complicating the project is the fact that Drosophila guttifera is little used in research and its genome has not been sequenced.
使项目艰难的因素还有Drosophilaguttifera很少用于研究和它的基因组没有得到测序。
2
To see if attractiveness can be hereditary, researchers in England focused on the fruit fly Drosophila simulans.
为了观察魅力是否会遗传,英格兰的研究者们把目标对准果蝇。
3
Results: Lycium Chinense mill has no effect on the sexual vitality of drosophila melanogaster, but could extend its lifetime.
结果:含有枸杞子的培养基对果蝇性活力无有效作用,但能有效延长果蝇寿命。
4
The fruit fly Drosophila melanogaster is one of the best-studied model organisms.
黑腹果蝇是了解得最深入的模式生物之一。
5
Drosophila is one of the best experimental material. Its genome consists of 10%~12% transposable elements.
果蝇是大量系统研究的最好实验材料之一,其基因组的10%~12%是由转座因子组成。
6
After Drosophila were bred at different temperatures, the variation of the numbers of Drosophila in two tubes were observed.
将果蝇在不同的温度下饲养后,观察不同温度下饲养的果蝇进入两只离心管内的数量变化。
7
Drosophila melanogaster haemocytes constitute the cellular arm of a robust innate immune system in flies.
果蝇的细胞血细胞构成一个强有力的手臂先天免疫系统中的苍蝇。
8
As the name implies, it is related to Toll, a receptor involved in pathogen recognition in the fly Drosophila melanogaster.
如它的命名所示,它与Toll,一种黑腹果蝇体内的识别病原体的受体相关。
9
Four new reviews focus on how the latest work on Drosophila is taking this genetically pliant lab model into exciting new fields.
四篇新的评论文章分析了关于果蝇的最新研究工作是怎样将这种在遗传上适应性很强的实验室模型动物带入激动人心的新领域的。
10
O'Reilly et al. found evidence for more active stem cells while studying how the cells anchor themselves in the Drosophila ovary.
欧·瑞利等学者在研究果蝇卵巢干细胞如何掌管其自身的过程中为这些更加活跃的干细胞找到了证据。
11
the bloomington fly stock center collects , maintains and distributes drosophila melanogaster strains for research.
布鲁明顿果蝇库存中心收集、保存各类黑腹果蝇并进行分类,以供研究之用。
12
Furthermore, the inhibitors protected against dopaminergic cell death both in vitro and in a Drosophila model of Parkinson's disease.
此外,在离体实验和帕金森氏病果蝇模型中,这种抑制剂可以防止多巴胺能细胞死亡。
13
With this knowledge, Morgan and his students began the first chromosomal map of the fruit fly Drosophila.
掌握了这些知识,摩根和他的学生开始了第一次染色体地图果蝇。
14
"Our studies in Drosophila address an important question -- how starvation modulates olfactory processing, " he added.
我们进行的果蝇(Drosophila)研究解决了一个重要问题就是饥饿如何调节嗅觉过程。
15
and that mechanism was conserved in vertebrates and snails, but lost in animals like Drosophila and C. elegans.
这个机制在脊椎动物和螺类中传承了,然而在果蝇和线虫中却失去了。
16
Recent studies of Drosophila have provided valuable information toward our understanding of genetic regulation of death.
最近的研究果蝇,提供了宝贵的资料对我们了解死亡的基因调控。
17
researching drosophila behavior through recording display of the LED lattice and the behavior of drosophila.
通过记录LED点阵的显示以及果蝇的行为来对果蝇行为的进行研究。
18
This article review classification, mechanism of mating factor and advance in Drosophila melanogaster and Bombyx mori.
本文概述了昆虫交配因子的种类和在雌虫体内的作用机制,并评述了其在果蝇和家蚕中的研究新进展。
19
Method: The pharmacodynamics study was conducted in the invigorating Yang of drosophila melanogaster, and rats, mice.
方法:采用果蝇及大、小白鼠对八仙丸胶囊壮阳作用进行药效学研究。
20
This paper studies on the theories and technologies of auto-focusing in drosophila's compound eyes lesion discrimination.
本文就果蝇复眼病变图像识别的自动调焦技术进行了系统的研究。
21
How can the genome of Drosophila melanogaster contain fewer genes than the undoubtedly simpler organism Caenorhabditis elegans?
如何才能果蝇基因组中包含更少的基因无疑比简单的有机体线虫线虫?
22
We analyzed reaction norms of melanisation in Drosophila species which differ in developmental thermal range and geographical distribution.
我们分析了不同发育温度范围和地理分布的果蝇的黑化反应模式。
23
A certain laboratory strain of the fruit fly Drosophila melanogaster has white eyes.
黑腹果蝇的某一实验室品系拥有白色眼睛。
24
Here is to review the main findings from Drosophila and to discuss the relationship between SWH pathway and tumorigenesis.
现对SWH在果蝇中的研究进展予以综述,并将SWH信号通路与人类肿瘤发生的关系进行讨论。
25
Transposons such as P elements are routinely used to stably transfer exogenous DNA (transgenes) into the Drosophila genome.
转座子如P因子通常用来稳定转移外源DNA(基因)的果蝇基因组中。
26
Objective To investigate the effects of yeast on re productivity and growth of Drosophila melanogaster.
目的研究酵母粉对果蝇繁殖力和生长发育的影响。
27
Conclusion High temperature can decrease the learning and memory behavior of Drosophila.
结论高温可以降低果蝇的学习记忆行为。
28
Toll and interleukin-1 receptor (TIR) domains were originally described from comparisons of proteins found in mammals and Drosophila.
收费和白细胞介素-1受体(公路货运)域最初描述的比较中发现的蛋白质哺乳动物和果蝇。
29
One laboratory stock of Drosophila melanogaster has very reduced or vestigial wings.
果蝇的一种实验品系,翅膀缩小,称为残翅。
30
We're lucky to have an expert Drosophila geneticist on campus to test this genetic switch.
“我们很幸运有一个果蝇遗传学家一起研究这一遗传学转变”。