当苍蝇对飞在其周围的虚拟物体作出反应时,科学家利用一个荧光显微镜来观察苍蝇大脑的成像过程。
As the fly responded to virtual objects flying around it, the scientists used a fluorescent microscope to watch how its brain processed the images.
采用荧光显微镜对火蜥蜴进行观察,研究人员能够看到海藻色素“发光”当它们被一定波长的光照射的时候。
Viewing the salamanders under a fluorescent microscope, the researchers were able to see the algal pigments "shine" when they were illuminated with light of a certain wavelength.
但是由于荧光显微镜体积较大价格昂贵,这种技术还未能大规模推广。
But because fluorescent microscopes are quite large and expensive to use, the technology isn't yet widespread.
我怀疑圣地亚哥的小组是不是能和他们在伯克利分校的同事交流一下他们研究出的将荧光显微镜附加到手机的技术。
I wonder if the San Diego crew has talked to their colleagues over at U.C. Berkeley about the fluorescent microscope cell phone attachment they've developed.
这种警示性荧光是在荧光显微镜下可见的小蓝点。
The warning glow of small blue dots can be seen under a fluorescent microscope.
1980年,一位科学家在紫外线显微镜下观察骨骼碎片时注意到这些骨骼发出了幽幽绿光——这种绿色荧光是骨骼含有四环系抗生素的一种标志。
In 1980, a scientist looking at bone fragments under an ultraviolet microscope noticed the bones were glowing green — a hallmark of the antibiotic tetracycline.
附着在合成超细纤维上的内皮细胞,微管、肌动蛋白和胞核已染色(2500倍),荧光和激光共焦显微镜。
Endothelial cell attached to synthetic microfibers, stained with microtubules, F-actin and nuclei (2500x), Fluorescence, confocal.
通过荧光显微镜可直接观察组织工程化肌腱上的细胞。
We could also observe the cells on the tissue engineered tendons by fluorescence image directly.
高分辩率荧光显微镜是我们这一年的年度技术。由于它的巨大潜力,使得人们可以更真实地理解细胞生物学。
With its tremendous potential for understanding cellular biology now poised to become a reality, super-resolution fluorescence microscopy is our choice for Method of the Year.
科学家们利用荧光显微镜对小鼠大脑进行观察时发现神经元中的线粒体呈现黄绿色发光。
These structures light up with a greenish-yellow glow when the scientists look at the brains of these mice through a fluorescent microscope.
应该开发并鼓励增加使用有希望的诊断方法如痰液化和浓缩并增加荧光显微镜术的利用率。
Increased use of promising methods of diagnosis such as sputum liquefaction and concentration and increased availability of fluorescence microscopy should be explored and encouraged.
诱导表达的菌体在激光共聚焦显微镜下可发射明亮的绿色荧光。
Moreover the induced bacteria could emit bright green fluorescence by confocal laser scanning microscope.
他们将使用荧光标记法标记这些脑细胞,然后在显微镜下观察。
They will use fluorescent tags to label the cells in the brain, and look at them under the microscope.
因为SRS显微镜通过侦测原子之间化学键的固有振动来完成工作,因此无须侵入性荧光标记。
Because SRS microscopy works by detecting the intrinsic vibrations in chemical bonds between atoms, it doesn't require intrusive fluorescent labeling.
电子显微镜的最终图像一定要投射到荧光屏上。
The final image in the electron microscope must be projected on to a phosphor-coated screen.
利用荧光显微镜技术对紧露草雄蕊毛细胞的核穿壁现象进行了观察。
The technique of fluorescent ndcmp is used to observe the occurence of nuclear extrusion in Tradescantia stamen hairs.
电泳结束后,溴化乙啶(EB)染色,在荧光显微镜下观察、计数拖尾细胞的尾长。
After stained by EB, tail length of the cells were observed and counted under the fluorescence microscope.
导出了共焦双光子荧光显微镜探测光强随荧光波长变化的解析表达式。
The analytic expressions of the fluorescent intensity are derived in two_photon fluorescence confocal imaging.
活体显微镜及荧光染色分析评估趾长伸肌的毛细灌注,细胞损伤和炎症反应。
Intravital microscopy and fluorescent staining assessed capillary perfusion, cell damage, and inflammatory activation within extensor digitorum longus muscle.
文章对双光子激光扫描荧光显微镜的原理及其应用进行了综述。
The principle of two-photon laser scanning fluorescence microscopy and its applications are reviewed.
目的对应用激光扫描共聚焦显微镜进行荧光强度的测定条件做了详细的分析。
Objective To explore the conditions under which fluorescence intensity is determined in confocal laser scanning microscopy.
激光共聚焦荧光显微镜观察活细胞内荧光布局。
Laser-scanning confocal microscopy was used to monitor the distribution of green fluorescence.
荧光显微镜观察AWP1在细胞内的表达和分布。
The expression and localization of AWP1 were observed under a fluorescence microscope.
本系统不仅弥补了传统荧光显微镜的功能缺陷,而且实现了系统的计算机控制及荧光图像的处理、光谱分析等功能。
This system not only remedied the function defects of the traditional fluorescence microscope, but also realized the computer control and the process and spectral analysis of the fluorescence image.
激光扫描共聚焦显微镜是检测生物荧光信号的最新技术手段。
The laser scanning confocal microscopy is a newest biological analysis instrument to detect fluorescent messages.
利用荧光显微镜和原子力显微镜我们第一次观察到J -聚集体的形貌随着湿度的变化而变化。
For the first time, we observed the transformation of the J-aggregates morphologies depending on the surrounding humidity by fluorescence microscopy and atomic force microscopy.
利用荧光显微镜和原子力显微镜我们第一次观察到J -聚集体的形貌随着湿度的变化而变化。
For the first time, we observed the transformation of the J-aggregates morphologies depending on the surrounding humidity by fluorescence microscopy and atomic force microscopy.
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