目的探讨垂体瘤转化基因在垂体大腺瘤中的表达及意义。
Objective To investigate the expression of pituitary tumor transforming gene and clinical significance in pituitary marcroadenomas.
垂体瘤转化基因参与调节雌激素诱导的大鼠垂体腺瘤发生。
PTTG mRNA in the pituitary glands was regulated by estradiol, with possible involvement in estradiol induced tumorigenesis in rats.
垂体肿瘤转化基因1 (PTTG1)具有促进肿瘤生长和转移的作用。
Pituitary tumor transforming gene 1 (PTTG1) is a proto-oncogene and plays roles in promoting tumorigenesis and metastasis.
结论:杆状病毒载体能够介导HHV - 8肿瘤转化基因k12编码的蛋白在昆虫细胞中表达。
Conclusion: Baculovirus transfer vector may mediate the coding protein of HHV-8 K12 gene expressed in insect cells.
目的:研究垂体瘤转化基因在实验大鼠垂体腺瘤组织中的表达规律,探讨垂体瘤转化基因在垂体腺瘤形成过程中的作用。
Objective: The aim of this study was to explore expression of pituitary tumor transforming gene (PTTG) in estrogen-induced pituitary tumorigenesis in rats, to investigate its role in this process.
目的研究垂体瘤转化基因(PTTG)在慢性粒性细胞白血病(CML)患者中不同临床阶段的基因表达,为阐明CML演变的可能机制提供依据。
Objective To explore the expression of PTTG gene of chronic myeloid leukemia(CML)in different phases for providing information about the potential mechanisms of CML.
这三种基因控制眼球生长、确保眼部所见光线在视网膜转化为电脉冲。
These alter the activity of three genes that control the growth of the eyeball and ensure light entering the eye is converted into electrical pulses in the retina .
不过现在有一种新技术,通过一种特殊的基因修复这些受损的肺脏,使得这些肺脏能够应用于器官移植。这一技术的详细信息刊载于这周出版的《科学—转化医学》杂志上。
But a new approach, detailed this week in the new journal Science Translational Medicine, describes a novel gene therapy that can repair these damaged lungs-and make them available for transplant.
这三种基因控制眼球生长、确保眼部所见光线在视网膜转化为电脉冲。
These alter the activity of three genes that control the growth of the eyeball and ensure light entering the eye is converted into electrical pulses in the retina。
数年前,他提炼出一种技术,可以将基因网络“毛团”——对基因交互作用密集纠结的描绘——转化成分层图。
Several years ago, he refined a technique for turning gene-network "hairballs" - densely tangled depictions of gene interaction - into hierarchical maps.
神经传递素并非个人基因形式转化为行动的唯一途径。
Neurotransmitters are not the only way an individual’s genetic make-up is translated into action.
因此,确认那些可以消化纤维素的酶的基因,然后修改并重组这些基因形成新的代谢途径,就可以生成一些系统,能够消化整株植物,并将其转化为乙醇。
Identifying the genes for the enzymes that do this, modifying them and assembling them into new pathways would produce systems that could digest the whole plant and turn it into ethanol.
LS 9已经对大肠杆菌进行基因工程改造,以优化其将糖类转化成燃料的过程。
LS9 has been genetically engineering E. coli to optimize the process by which the bacteria converts sugar into fuel.
他们都是核糖核酸病毒(RNA病毒),这就说明了他们不能轻易地将他们的遗传物质转化成dna,这是一个整合成动物基因组的必要步骤。
All are RNA viruses, which means they can't easily convert their genetic material into DNA, a necessary step for integrating into an animal's genome.
或者假设他们可以利用遗传技术改变微生物的基因,比如可以将太阳能转化为乙醇,那样的话,增长会无限持续下去吗?
Or suppose that they genetically engineer a microbe, for example, that converts solar energy into ethanol.Could growth then continue indefinitely?
并不是所有的基因组的知识都可以转化,更强大有效的诊断工具还需要很长时间来研发。
Not all genomic knowledge is translatable, and more powerful diagnostic tools are still years down the road.
基因修饰的大肠杆菌把糖转化为丁醇的能力比其他微生物快10倍。
Engineered E. coli convert sugar to butanol 10 times faster than other microbes.
最近几年工业界也明白了把基因遗传方面的发现转化为有市场的药物并不像以前想的那么简单。 当然如果这个发现能够开发出一种特效感冒药销量将十分可观。
The industry has also learned in recent years that turning a genetic discovery into a marketable drug is far harder than once thought.
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。
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.
病毒癌基因最常为逆转录病毒致癌基因的产物。通常具有转化和蛋白激酶活性。
Products of viral oncogenes, most commonly retroviral oncogenes. They usually have transforming and often protein kinase activities.
这些蛋白的角色是阅读基因组并转化为合成各种各样分子(正是这些分子组成、控制细胞)的指令;
The role of these proteins is to read the genome and translate it into instructions for the synthesis of the various molecules that compose and control the cell.
植物转化是开展基因工程育种和鉴定基因功能的重要途径。
Plant transformation is an important approach in genetic engineering breeding and identification of gene function.
叶绿体遗传转化是植物基因工程的新方向。
Chloroplast genetic transformation is a new way of plant genetic engineering.
1986年以来,利用病毒外壳蛋白及其它基因转化植物,获得具抗病毒能力的植株,已有大量成功的报道。
Since 1986, a lot of papers have been published on development of virus resistant plants transformed with genes from viruses, such as coat protein gene.
为利用芪合酶基因转化植物并在食用果实中产生白藜芦醇做准备。
It is prepared for using the stilbene synthase gene to transform plant for producing the resveratrol in fruit.
本文首次尝试了用离体子房注射法对玉米进行基因转化。
The present article tried the transformation of gene into maize ovaries by microinjection.
细胞转化是通过改编过程实现的。这个过程改变了哪些基因被激活那些基因被关闭。
Basically, the identity switch comes about by a reprogramming process that changes the pattern of which genes are active and which are shut off.
细胞转化是通过改编过程实现的。这个过程改变了哪些基因被激活那些基因被关闭。
Basically, the identity switch comes about by a reprogramming process that changes the pattern of which genes are active and which are shut off.
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