马丁chalfie证明的价值作为一个明亮的绿色荧光蛋白基因标记的各种生物现象。
Martin Chalfie demonstrated the value of GFP as a luminous genetic tag for various biological phenomena.
通过使用DNA技术,研究人员现在可以连接到其他有趣的绿色荧光蛋白基因,但在其他无形,蛋白质。
By using DNA technology, researchers can now connect GFP to other interesting, but otherwise invisible, proteins.
Yun博士果断放弃了传统介质,选用了绿色荧光蛋白(GFP)作为介质——这种物质能使一种生活在黑暗中的水母发光。
Dr Yun plumped instead for a chemical called Green Flourescent Protein (GFP), the substance responsible for making certain species of jellyfish glow in the dark.
在1992年,普拉舍博士也克隆了“绿色荧光蛋白”(gfp),所以它不再必须是从活着的生物体中提取。
In 1992 Dr Prasher also cloned GFP, so that it no longer had to be harvested from living creatures.
这样极大提高了开发生物荧光的可能性,因为这意味着“绿色荧光蛋白”不再必须被注射到组织中,取而代之的是,其基因序列可以被加入到活体的基因中去。
This expanded the possibilities for exploiting bioluminescence dramatically, because it meant that GFP did not have to be injected into tissue.
2000年,法国科学家将绿色荧光蛋白基因转接进兔子的基因组中;芝加哥的艺术家爱德华多·卡克(EduardoKac)宣称这是他的创意,不过后来科学家们反驳了他。
In 2000, French scientists spliced GFP into a white rabbit's genome; Chicago artist Eduardo Kac claimed it was his idea, though scientists later disputed that.
研究人员已经研制出一种比绿色荧光蛋白小的蓝色荧光探针,它更容易标记活细胞中肽融合重组蛋白。
Researchers have engineered a blue fluorescent probe that is smaller than GFP and will improve the labeling of peptide-fused recombinant proteins in living cells.
尽管绿色荧光蛋白是由238个氨基酸组成蛋白质,是一种微小的、疏水性膜渗透的荧光分子。
While GFP is a protein that consists of 238 amino acids, the new technique USES a small, hydrophobic, and membrane-permeable fluorescent molecule.
背后的故事绿色荧光蛋白的发现之一的三个诺贝尔奖获得者中的主导作用。
The story behind the discovery of GFP is one with the three Nobel Prize Laureates in the leading roles.
然而,尽管有了充分特定的应用,但如绿色荧光这样较大的荧光蛋白经常会破坏细胞中蛋白的正常活动。
However, while perfectly specific, the large size of fluorescent proteins like GFP often disrupts the natural activity of proteins inside cells.
绿色荧光蛋白(GFP)基因重组病毒标记技术是神经解剖研究的新方法。
The green fluorescence protein (GFP) gene recombinant virus labeling is a new method for the neuroanatomical studies.
用电泳实验和绿色荧光蛋白标记方法研究了它的转染效率。
We used gel retardation assay experiment and green fluorescence protein marker to investigate their transfer efficiency.
本发明涉及生物技术中的基因工程领域,公开了一种含绿色荧光蛋白基因的植物转基因表达载体,以及其构建方法和应用。
The invention discloses a plant transgene expression carrier containing green fluorescent albumen gene, its method for constructing the same and use in genetic engineering field of biotechnology.
目的构建携带报告基因增强型绿色荧光蛋白(EGFP)的反转录病毒载体,并且探讨病毒载体对SK-N-SH神经母细胞瘤细胞株的感染效率。
Objective To construct the retroviral(RV) vector with report gene enhanced green fluorescent protein(EGFP) and to explore the gene transfection efficiency of RV on SK-N-SH neuroblastoma cells.
宣布奖项时,瑞典皇家科学院称绿色荧光蛋白在科学领域的重要性堪比显微镜的发明。
In awarding the prize, the Royal Swedish Academy compared the impact of GFP on science to the invention of the microscope.
宣布奖项时,瑞典皇家科学院称绿色荧光蛋白在科学领域的重要性堪比显微镜的发明。
In awarding the prize, the Royal Swedish Academy compared the impact of GFP on science to the invention of the microscope.
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