熒光紅細胞 的英文怎麼說
中文拼音 [yíngguānghóngxìbāo]
熒光紅細胞
英文
fluorescing erythrocyte- 熒 : 形容詞[書面語]1. (光亮微弱的樣子) glimmering 2. (眼光迷亂; 疑惑) dazzled; perplexed
- 光 : Ⅰ名詞1 (照耀在物體上、使人能看見物體的一種物質) light; ray 2 (景物) scenery 3 (光彩; 榮譽) ...
- 紅 : 紅Ⅰ形容詞1 (像鮮血或石榴花的顏色) red 2 (象徵順利、成功或受人重視、歡迎) symbol of success lu...
- 細 : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
- 胞 : Ⅰ名詞1 (胞衣) afterbirth2 (同一個國家或民族的人) fellow countryman; compatriot Ⅱ形容詞(同胞...
- 細胞 : cell; sytes; bioplast; cella; [口語] gene; [生物學] cellule; cellule cellulli cellulo ; cello ; k...
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To investigate the consequence of this interaction, aes - rfp fusion protein expression vector was constructed and co - transfected into nih 3t3 cells with tle1 - gfp fusion protein expression vector. confocal microscopy observation showed that aes could interact with tle1 at the cytomembrane region. moreover, this interaction inhibited the concentration of tle1 into nucleus
在構建了紅色熒光蛋白aes表達載體后,將其與tle綠色熒尤蛋白載體共轉染細胞,共聚焦顯微鏡觀察發現這兩種分子在胞漿中有共存現象,而且aes的表達可抑制tlei向胞核內的聚積。A database search revealed that the putative sequence of the red gene shows 40 - 50 % identity with those of uroporphyrinogen iii methyltransferase ( encoded by coba gene ) from various kinds of bacteria. an over - expression of the coba gene in e. coli was reported to lead to an accumulation of trimethylated derivative of porphyrin termed trimethylpyrrocorphin and factor ii, which emit strong red fluorescence under uv
在ddbj中搜索到多種細菌來源的coba基因(編碼uroporph仰nogenhmethyltransferase )與redsene有40 50的同源性,並據報道,其中一個來源於pmpboibaclerilllaslldelll切chit的coba的基因,轉人大腸桿菌、酵母菌及動物細胞后能使表達載體在紫外線下發射紅色熒光。After treatment with bfa, immunoflurescence labeling and confocal laser scanning microscopy indicated that the cytoplasmic dynein intermediate chain - like protein in lily pollen tube was insensitive to bfa treating, but spectrin - like protein was sensitive to it under the same condition
用bfa處理百合花粉管后,通過免疫熒光標記及激光共聚焦掃描顯微鏡觀察發現類細胞質力蛋白中間鏈對bfa不敏感;同樣的處理發現類紅膜肽對bfa敏感。Based on the theoretical analysis and experimental researches, it is presented that the wider spectra are resulted from the many fluorophores with large numbers of vibrational energy levels on the ground level in the blood cells, and the reduction of the spectral intensity is due to the reabsorption of the blood cells and the energy transfer of the collisions between the fluorophore and another one or other macromolecule. on the other hand, when the concentration of the blood cells is increased, the reabsorption of the blood cells, the secondary fluorescence due to the reabsorption and the influence of the concentration on the energy levels of fluorophores are all the factors of the red - shifted spectral peaks
在進行理論分析和研究的基礎上,提出了因血細胞中存在多種熒光團,且這些熒光團的電子能級上又存在大量的不同的振動能級,從而導致被激發的熒光團發出較寬的熒光光譜;血細胞濃度的增大,熒光團以及其他大分子之間的距離變小,造成它們之間因碰撞的能量轉移概率加大,因而易產生熒光猝滅,結果導致熒光強度的變小;血細胞溶液中重吸收所導致的熒光猝滅和二次熒光發射,以及血細胞濃度的變化對其中熒光團能級系統的影響都是導致熒光峰值波長「紅移」的原因;進而研究了led光誘導血細胞產生熒光光譜的機理。Some methods such as image cytophotometry, fluorescence microscopic imaging, infrared ( nearinfrared ) and raman microscopic imaging, magnetic resonance imaging and scanning probe microscopic imaging are discussed emphatically, and the conceivable direction in the future has been suggested
重點討論了圖像細胞光度測量、熒光顯微成像、紅外(近紅外)與拉曼顯微成像、磁共振成像和掃描探針顯微鏡成像等技術,並展望了單細胞成像的發展前景。In our research, marked autologous fluorescent blood red cell is immitted into sd - rat body and the whole process is shown and recorded by microscope image system. after these processes, we can replay the recorded tape and sample images with video image card. then, we use sequence image processing to analysis the image of dark ground microscope
利用做過熒光標記的自身紅細胞注入sd大鼠體內,通過顯微圖象系統將整個過程以視頻信號的形式存貯,然後利用基於視頻圖象的採集卡,將流速變化過程回放采樣,得到暗視場下的熒光圖象,利用圖象分析和處理的方法,測定血流速度。The mechanisms of laser - induced blood fluorescence spectra and the spectra deriving from the fluorophores on the erythrocyte membrane are presented. on the other hand, the lower intensity of the hemoglobin fluorescence spectra is due to the fluorescence quenching from resonance energy transfer between the fluorophores in hemoglobin with ambient
因此提出了激光誘導血細胞產生熒光光譜的機理;並提出激光誘導血液產生的熒光光譜主要是紅細胞的貢獻,其中對紅細胞產生的熒光光譜作主要貢獻的是其細胞膜上的色素基團、雙極性的磷脂等生物大分子中的熒光團。Led light - induced fluorescence spectra of whole blood, erythrocyte and hemoglobin are obtained in the case of different concentration of blood cells solution with various excitation wavelengths. the intensity and peaks of the spectra from 430nm to 700nm depend strongly on the concentration of blood cells
通過改變激發光波長和血細胞濃度,獲得了led光誘導全血、紅細胞和血紅蛋白產生的熒光光譜,其光譜覆蓋了430 700nm波段,且光譜強度和峰值位置均與溶液濃度有較強的依賴關系。分享友人