Zebrafish are also genetically similar to humans.
斑马鱼还和人类的基因相似。
In zebrafish, APC mutations keep the intestine from developing properly.
在斑马鱼中,APC基因突变阻碍了肠道的正常发育。
Haploid development in zebrafish has been applied for genetic screening.
对斑马鱼以开展了单倍体发育的遗传学筛选。
QPRIMER supports human, mouse, rat, chicken, dog, zebrafish and fruit fly.
QPRIMER支持人类,小鼠,大鼠,鸡,狗,斑马鱼和果蝇。
If a zebrafish loses a chunk of its tail fin, it'll grow back within a week.
假如失去一整块的斑马鱼尾鳍,但一个星期后就会成长。
The Zebrafish DVD Exchange Project is aimed at by-passing these limitations.
斑马鱼DVD交换计划旨在绕过这些限制。
In this experiment, zebrafish are exposed to a dye that highlights living hair cells.
在他们的实验中,斑马鱼身上活的毛细胞被染色。
This means the genes exist and have the same function in both zebrafish and humans.
这意味着这些基因在斑马鱼和人体中都存在且拥有相同的功能。
He and his team are studying the ability of zebrafish to regenerate limbs and organs.
他和他的团队正在研究斑马鱼再生肢体和器官的能力。
Zebrafish don't nap more during daylight hours when sleep deprived, a new study shows.
一项新的研究显示,斑马鱼在睡眠被剥夺之后并不会在白天打盹。
Peering deep into a Zebrafish brain, Oliver Braubach takes this image of its olfactory bulbs.
凝视着斑马鱼脑子的深部,奥利弗·布劳·巴赫摄取了其嗅球的照片。
Wang says you can cut away about 20 per cent of the zebrafish heart and it will regenerate.
王亚东表示,切掉斑马鱼大概20%的心脏,它会再生出来。
The next step will be to test the regenerative abilities of zebrafish ECM on larger mammals.
科学家们下一步将会在大型哺乳动物身上测试斑马鱼细胞外基质的再生能力。
In this study, we have explored the developmental role of IGFBP-3 using the zebrafish model.
本研究使用斑马鱼模型探索了IGFBP - 3的在胚胎发育中的功能。
But to simplify their research, the Duke researchers chose to study the gene's effects in zebrafish.
但为了简化他们的研究,杜克大学研究人员研究这种基因在斑马鱼身上的影响。
Poss, Lindsay G. Wilson and Mark t. Keating found that the zebrafish can naturally regenerate its own heart.
美国霍华休斯医学研究中心研究员波斯、威尔森及几丁发现,斑马鱼天生具有修复心脏的能力。
Objective To probe whether there are acupoint-like and meridian-like structures on the body surface of the zebrafish.
目的:探讨斑马鱼是否存在类经络与类穴位结构。
The whole system is likely to make zebrafish the first vertebrate to achieve saturation mutagenesis and gene screening.
这套系统的建立使斑马鱼成为第一个有可能达到基因饱和突变和筛选的脊椎动物。
Scientists injected an "extracellular matrix, " or ECM, from the heart of a zebrafish into a severely damaged mouse heart.
科学家将一种取自于斑马鱼心脏的“细胞外基质”注入严重受损的老鼠心脏中。
However, Keith Cheng, leader of the research team, points out that the mutation is different in human and zebrafish genes.
浅肤色的欧洲人和金斑马鱼类似,也是因为产生黑色素的基因发生了变异,从而使皮肤中的色素减少。
Nineteen of the species, including a squirrel, a small bat, a zebrafish, and a human had RNA viral sequences embedded in their DNA.
当中的19个种族,包括松鼠、蝙蝠、斑马鱼和人类,他们的基因中都含有嵌入式的RNA病毒排序。
The brain consists of many neurons - a hundred thousand in a fly or larval zebrafish, millions in a mouse, billions in a human.
大脑由许多神经元组成,一只苍蝇或斑马鱼幼体有十万的神经元,老鼠有数百万的神经元,人有数十亿的神经元。
The new US study of zebrafish has identified a key cellular pathway that appears to trigger regeneration by switching on certain genes.
美国对斑马鱼的最新研究确认,再生的关键细胞途径似乎是通过开关某种基因而激活再生。
The researchers exposed zebrafish larvae--a popular laboratory animal model--to lights flashing at different durations and frequencies.
研究人员将斑马鱼鱼仔——一个受欢迎的实验室动物模型——曝光,灯光以不同的持续时间和频率闪烁。
Dr Arendt andhis colleagues compared the molecular fingerprints of the nerve cells of Platynereiswith that of a vertebrate, the zebrafish.
阿伦德特博士于他的科研组将沙蚕(Platynereis)的神经细胞分子指纹与一种为斑马鱼的脊椎动物的指纹做了比较.
The researchers worked with 4 millimeter-long larval zebrafish (Danio rerio) because they are transparent and researchers can see their cells.
研究人员使用4毫米长的斑马鱼幼体(Daniorerio),因为其身体透明这样研究人员可以看到它们的细胞。
Intriguingly, before the heart of a developing mammalian embryo separates into four Chambers, it looks similar to the two-chambered zebrafish heart.
非常有趣的是,发育中的哺乳动物晶胚的心脏在分化为四腔室前,与斑马鱼的双腔心脏非常相似。
On left, red blood cells are stained in wild type zebrafish embryos while on the right mutant embryos lacking the enzyme Ago2 fail to produce blood cells.
左图,野生型斑马鱼胚胎已染上红色血细胞,而右图缺乏酶Ago2的变异胚胎则不能产生血细胞。
On left, red blood cells are stained in wild type zebrafish embryos while on the right mutant embryos lacking the enzyme Ago2 fail to produce blood cells.
左图,野生型斑马鱼胚胎已染上红色血细胞,而右图缺乏酶Ago2的变异胚胎则不能产生血细胞。
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