Rather than looking for certain genes or mutations, it measures how active 23 key genes are.
不是寻找某些基因或变种,而是测试23中关键基因有多活跃。
Therefore, es cells are the ideal model of development of cardiomyocytes and its key genes.
因此,ES细胞是研究心肌细胞发育分化机制及鉴定其关键基因的理想模型。
For this purpose molecular cloning of related key genes in artemisinin biosynthesis was performed in this thesis work.
本论文基于此目的,开展了青蒿素生物合成相关基因的分子克隆工作。
In particular, the researchers found that two key genes were affected in the cellular response to decreased glucose consumption.
特别是,研究人员发现,葡萄糖消耗下降会影响细胞的两个关键基因。
Furthermore, some patients with a rare, genetically inherited form of Parkinson's disease carry mutations in key genes that regulate mitochondrial function.
此外,少数基因遗传性的帕病病人在一些控制线粒体功能的关键基因上发生了基因突变。
The discovery of RUS1 provides scientists with a platform to examine other key genes that receive UV-B light and translate light information into how the plant should develop.
RUS1基因的发现为科学家提供了一个研究其他接收uv - B光并且将光信号转化为植物应该怎样生长信息的关键基因的平台。
Conclusion Abnormal expression of tumour related genes of patients exposed to benzene suggests that they may be the key genes, which play important role in benzene-induced leucocythemia.
结论苯暴露患者肿瘤相关基因的表达异常,提示其可能为致白血病的关键基因,在苯致白血病中起着重要的作用;
Breeder must be a specialist in discovering and utilizing key genes and creating new genotypes. Selecting and crossing parents and selecting good offspring are the key art in the breeding program.
育种学家必须是一个多面手,要善于发现和利用关键的基因及创造新的基因型,亲本选配和后代选育是关键艺术。
The key to complexity is that these few remaining genes weigh almost nothing.
对复杂性的关键是这些仅存不多的基因重量几乎为零。
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。
Given a few key variables, such as how often viral genes shuffle inside cells, his equations can provide the minimum mutation rate to safely kill a virus.
他的方程序给出了一些关键的变量,比如病毒基因在细胞内的变异速率,这些可以帮助研究人员安全地杀死病毒。
For billions of years, the environment and how it affected organisms' genes was the key to evolution.
数十亿年以来,环境以及对基因的影响一直是生物体进化的关键。
Their key achievement is demonstrating that the genes necessary for reprogramming can be delivered with RNA.
他们最主要的成就就是说明了可以利用RNA导入必需基因来重新编码细胞。
This flagged up two genes associated with the high intake of tea, coffee, chocolate and caffeinated soft drinks such as colas.One – CYP1A2 – is key to the breakdown of caffeine in the liver.
有两类被标注的基因与茶、咖啡、巧克力以及像可乐这样的含有咖啡因饮料的摄取有关,其中的一类名叫CYP1A2,它是咖啡因在肝脏内分解的重要和关键。
This flagged up two genes associated with the high intake of tea, coffee, chocolate and caffeinated soft drinks such as colas. One - CYP1A2 - is key to the breakdown of caffeine in the liver.
有两类被标注的基因与茶、咖啡、巧克力以及像可乐这样的含有咖啡因饮料的摄取有关,其中的一类名叫CYP1A2,它是咖啡因在肝脏内分解的重要和关键。
The centenarian genome is a key resource in identifying longevity genes
百岁老人基因组是辨识寿命基因的关键来源
The three genes are located next to each other on human chromosome 14 and two are known to play key roles in fetal lung development.
这些基因位于人类14号染色体上,它们彼此相邻,科学家已知其中两个与胎儿期间肺部发育相关。
One study may help explain why: the amount of daylight to which newborn mice are exposed sets the behavior of key biological clock genes for life.
一项研究或许可以给出解释:这些新的小生命接触日光的多少决定了身体中控制生理时钟的基因的特性。
This makes the "centenarian genome" a key resource for identifying "longevity genes", an invaluable step in understanding the physiological processes underlying long lives.
这使得“百岁老人基因组”成为辨识“寿命基因”关键来源,而辨识“寿命基因”是解读长寿之下的生理进程价值非凡的一步。
The key function of the collection of brain genes Yankner has identified is to regulate the connections between neurons — vitally important, since it's healthy connections that keep neurons alive.
杨克纳所发现的这些大脑基因组的主要功能是调节神经元(也称神经细胞)之间的连接——这极为重要,因为神经元就是依靠这种正常的连接而存活。
A few of these genes play a key role in the speed at which our cells age.
其中几个基因在我们细胞的老化速度上起到非常关键的作用。
One key to your high blood pressure might just be your inflammatory genes .
其中一个关键,你的血压高的压力,可能只是你的炎症基因。
One key to your high blood pressure might just be your inflammatory genes.
一个关键,你的血压高可能只是你的炎症基因。
These key enzyme genes in the anthocyanidin synthesis pathway were research objects of flower color molecular breeding work, and F3 '5h was the target gene of blue flower breeding research.
花色素苷代谢途径中关键酶基因的研究一直是花色分子育种工作的主要研究对象,其中F 3'5 'H基因是蓝色花卉育种的研究热点。
Granulebound starch synthase (GBSS), also called waxy protein, is the key enzyme for amylose synthesis in the endosperm of cereals and is encoded by the waxy genes.
颗粒凝结型淀粉合成酶(GBSS),亦称作蜡质蛋白,是合成禾谷类作物胚乳直链淀粉的关键酶,由蜡质基因编码。
Granulebound starch synthase (GBSS), also called waxy protein, is the key enzyme for amylose synthesis in the endosperm of cereals and is encoded by the waxy genes.
颗粒凝结型淀粉合成酶(GBSS),亦称作蜡质蛋白,是合成禾谷类作物胚乳直链淀粉的关键酶,由蜡质基因编码。
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