在这里,他发现了重要的区别,发表在了《基因和发育》上。
Here she found crucial differences, published in Genes and Development.
对控制多趾的相关基因及其分子机制进行研究,有利于我们深入了解多指(趾)畸形的形成机制,揭示肢体发育的过程和机理。
Study the genes of polydactyly and molecular mechanism can help us to know how limbs form and reveal the producing process of limbs.
研究者在研究了老鼠的行为和基因活动后发现微生物正在帮助调整大脑发育。
Researchers studying behavior and gene activity in mice have found that these microbes appear to help shape brain development.
布隆·伯格把兴趣只集中在基因上,他在《天生畸形》书中证明,发育异常可以使人学到我们错过的有关生物类型和行为的一切。
By focusing only on genes, Blumberg argues in Freaks of Nature, we miss out on everything developmental anomalies can teach us about biological form and behavior.
‘对这些基因作进一步的分析,了解它们如何影响大脑的发育,可能会帮助我们找到更好的方法来诊断和治疗孤独症儿童。’
Detailed analysis of the genes and how they affect brain development is likely to yield better strategies for diagnosing and treating children with autism.
一开始,科学家们选择了十九种涉及基因重组或神经发育和功能的基因。
The scientists began with a selection of 19 genes involved in either genetic reprogramming or neural development and function.
收集这些数据的最初目的就是为了揭示个人基因类型和环境压力相结合后,对健康和发育的影响。
All this data collection was designed from the outset to show how the individual's genotype combines with environmental pressures to influence health and development.
就是有某些基因,如果强制开启或者关闭,会对动物和发育中的胚胎造成伤害。
There are just some genes that are on, and some that are off, that are not good for the animal, for the developing embryo.
这种基因能产生一种蛋白质,这种蛋白质能控制一个细胞能产生的其他蛋白质的数量,而且对蛔虫的研究表明,该基因参与整个生命的生长和发育阶段。
The gene makes a protein that controls the quantities of other proteins a cell produces, and studies in roundworms suggest that the gene is involved in growth and development throughout life.
影响衰老的主要因素有:遗传基因,胚胎发育,教育,阶级属性,事业,生活方式,身份地位,物理和精神状况,社会活动等。
Our genetic inheritance, our quality of life in utero, education, class, career, lifestyle, status, levels of physical, mental and social activity are just some of the main influences.
之前的研究表明,SHANK3的基因突变与语言能力发育迟缓、学习障碍和泛自闭障碍症有关。
Previous research has shown that gene mutation in SHANK3 is associated with delayed language abilities, learning disability, and ASDs.
这项系统发育研究由国际范围内的研究者共同承担,旨在揭示灵长类的起源、进化、物种形成模式和基因组谱系分化中的独特之处。
The phylogenetic analysis was conducted by international researchers to determine the origin, evolution, patterns of speciation, and unique features in genome divergence among primate lineages.
首先,他们用基因手段禁止了细胞受体的活动——细胞受体即那些向其他细胞发送和从其他细胞接受信号的分子们——因为雌激素和雄激素存在于正在发育的老鼠胚胎的肢芽中。
First, they used genetic tools to deactivate cell receptors-molecules that send and receive signals to and from other cells-for testosterone and estrogen in the developing limb buds of mouse embryos.
Bejerano和同事们从黑猩猩的基因组提取开关信息,把它们附加到一组可以报告的基因上,当生物发育时,科学家们可以跟踪这组基因的影响。
Bejerano and colleagues took the switch information from a chimpanzee's genome and essentially "hooked it up" to a reporter gene, a gene whose effects scientists can track as an organism develops.
明显要求是匀称身材(symmetricalfeatures)和皮肤好(good skin),这表示发育健康、有良好免疫系统和基因。
There's the obvious stuff like symmetrical features and good skin - which showcase a healthy development, immune system and good genes.
细胞中的基因控制生命体的生长和发育。
Genes in the cell control the growth and development of living things.
在生长和发育过程中,基因被化学基团如甲基标记后会不表达。
During growth and development, genes that should not be expressed are physically tagged with chemical groups such as methyl groups.
近期在鉴定人类基因突变方面的新进展为我们提供了研究骨骼发育的生物学和病理学机制的新思路。
Recent advances in the identification of human gene mutations have provided new insights in the biology and pathology of skeletal development.
他们目前计划研究这些丢失基因的作用。早期的研究表明这些基因缺失可能与发育迟缓,自闭症和精神分裂症有关联。
They now plan to study the function of the missing genes. Previous studies have suggested that deletions of these genes may be linked with delayed development, autism and schizophrenia.
随着胚胎的发育,不同的基因在不同时间和细胞处于开启和关闭状态从而形成特定的组织和器官。
Different genes are turned off and on in different cells at different times to form specific tissues and organs as the embryo develops.
他们发现了四个新的与胰岛素分泌和胰腺发育有关的新的基因区域。
They found four new areas that appear involved in insulin secretion and pancreatic development.
胚胎干细胞的发现为研究细胞分化,动物和人发育机制,阐明基因功能,筛选药物,细胞治疗疑难杂症等开辟了广阔的空间。
It is becoming a useful tool for studying cell differentiation, the mechanism of development, gene function, medicine selection, cell therapy and so on.
这个新的信号途径,标志者我们理解发育基因是如何开启和关闭的有了更大的进步。
This novel pathway marks an advance in our understanding of how developmental genes are turned on and off.
表观遗传修饰在基因表达和克隆胚的早期发育方面有重要作用。
Epigenetic modifications plays an important role in gene expression and the early development of cloned embryo.
DNA甲基化在基因调节和动物发育中起着重要作用。
DNA methylation plays an important role in gene regulation and animal development.
转录因子ap - 2就在许多参与哺乳动物发育、分化和癌症形成的基因转录调节中起到了重要的作用。
Transcription factor AP-2 plays an important role in regulating transcription of a number of genes in mammalian development, differentiation and carcinogenesis.
结论胚胎细胞行为和相关基因表达异常在甲基汞的发育毒性作用机理中起重要作用。
Conclusion Disturbance of embryonic cell behavior and related gene expression played important roles in developmental toxicity caused by methylmercury.
差别基因表达深深地影响了有机体生长和发育的途径。
Differential gene expression profoundly influences the way in which organisms grow and develop.
目的从细胞和基因水平揭示甲基汞的发育毒性作用机理。
Objective to explore the mechanism of embryonic developmental toxicity of methyl mercury at cellular and gene levels.
目的从细胞和基因水平揭示甲基汞的发育毒性作用机理。
Objective to explore the mechanism of embryonic developmental toxicity of methyl mercury at cellular and gene levels.
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