结合细胞遗传工程和化学工程以创造器官和组织如:皮肤、骨头、心脏瓣膜和软骨关节的技术。
Technology combining genetic engineering of cells with chemical engineering to create artificial organs and tissues such as skin, bone, heart valves, and cartilage for joints.
TSC是一种遗传性疾病,导致良性肿瘤的形成,在许多不同的器官,主要是在脑部,眼睛,心脏,肾脏,皮肤和肺部。
TSC is a genetic disorder that causes benign tumors to form in many different organs, primarily in the brain, eyes, heart, kidney, skin and lungs.
近年来在心脏器官发生学和遗传的人类先天性心脏病将提交给为了促进机械连接在心脏发育和疾病。
Recent advances in cardiac organogenesis and the genetics of human congenital heart disease will be presented in order to promote mechanistic connections in heart development and disease.
结节性硬化症(TSC)是一种遗传病,可导致脑、眼睛、心脏、肾脏、肝脏和皮肤等重要器官发生肿瘤。
Tuberous sclerosis complex (TSC) is a genetic disorder that causes tumors to form in vital organs, primarily the brain, eyes, heart, kidneys, liver, lung and skin.
所有生物都有有限的生命周期所以繁殖后代非常重要。探究繁殖系统基本要素包括的各个生理器官(植物的和动物的)以及基因遗传。
All organisms have a finite life-span thus the need to procreate is Paramount. Explore the fundamental aspects of reproduction including physical organ (in plants and animals) and genetic inheritance.
红麻的器官培养和原生质体培养是品种快繁、变异体筛选以及体细胞杂交和遗传转化等生物技术育种的基础。
It's organ culture and protoplast culture is important basic technique of rapid clonal propagation, selection of imitative plants, somatic hybridization and genetic transformation.
结果共筛选出适合长爪沙鼠常规遗传检测的生化基因位点28个,确定了适当的电泳时间、电压和靶器官。
A total of 28 suitable biochemical markers were screened out as regular genetic monitoring for Meriones Unguiculataus, and appropriate tissue, run time and voltage of electrophoresis were determined.
另外我们通过遗传分析得到了107的单突变体,发现其具有多样化的表型,如花器官发育有缺陷,叶边缘有很深的锯齿等。
The 107 single mutants were obtained by genetic analysis and exhibited pleitrophic phenotypes including defects in floral organ formation and deep leaf serrations.
本文介绍了STR及其分型特点,以及STR应用于遗传制图、法医学鉴定、人类学、群体遗传学、基因诊断、器官移植等方面内容。
STR and its typing characteristics and applications in genetic map, forensic identification, anthropology, population genetics, gene diagnosis and organ transplantation are reviewed in this paper.
结节性硬化症是一种遗传病,可导致脑、眼睛、心脏、肾脏、肝脏、肺和皮肤等重要器官发生肿瘤。
Tuberous sclerosis complex (TSC) is a genetic disorder that causes tumors to form in vital organs, primarily the brain, eyes, heart, kidneys, liver, lung and skin.
来自人体的猪器官遗传的悬殊意味着极少现存病毒将传染给人类……。
The genetic distance of pigs from humans means that fewer of the viruses present will be infections to human and...
因此,该方法不仅可以应用在细胞局域探测,细胞遗传信息领域,而且是实现“细胞手术”(针对某特定器官的改造)的关键技术。
Therefore, the method can be used in the local detection field and genetic information field of cell and be the key technology for realizing 'cell surgery' (alteration on some special organ).
花器官发育的分子遗传机制是目前植物发育生物学的研究热点之一。
The molecular mechanism of floral organ development is a hotspot in plant developmental biology researches.
提示白细胞DPC可作为靶器官的替代物反映镍对靶器官的遗传损害。
It showed DPC in the WBC can be used as a surrogate to indicate genotoxic lesions in target organs.
绒毛膜滋养层细胞的特性及近期发现的滋养层干细胞,使它们成为一个研究细胞分化和器官形成的理想的遗传学平台。
The feature of HVT together with the recent establishment of trophoblast stem cells makes them an ideal genetic platform to study cell differentiation and organogenesis.
植物器官的再生通常是遗传转化的关键步骤,然而植物的再生能力依赖于不同的遗传背景。
Regeneration of plant organs is often the essential step in genetic transformation; however, the regeneration ability of a plant varies depending on the genetic background.
采用乳牛外周血液淋巴细胞作短期培养,以空气干燥法制备染色体。对临床诊断为输卵管阻塞牛1例和生殖器官畸形牛5例进行细胞遗传学分析。
Comparetive chromosome studies wore carried out by means of short culture of lymphocytes from peripheral blood of 1 cow with simple salpingo obstruction and 5 cows with reproduction system problems.
最近研究表明大脑的表观遗传学可能落后于这个主要器官的复杂功能。
Recent research suggests that epigenetics of the brain may be behind the complex functions of this master organ.
临床年度回顾三:吸烟、肺疾病的遗传学和慢性阻塞性肺疾病对肺康复、呼吸器官的健康的影响。
Clinical year in review III: pulmonary rehabilitation, respiratory health effects of smoking, genetics of lung disease, and chronic obstructive pulmonary disease.
另外,可选择肺等呼吸器官作为供给遗传性疾病所缺失的蛋白质的生产组织。
Moreover, it becomes possible to select a respiratory organ such as the lung as a tissue that is capable of producing and supplying a protein deficient in a hereditary disease.
另外,可选择肺等呼吸器官作为供给遗传性疾病所缺失的蛋白质的生产组织。
Moreover, it becomes possible to select a respiratory organ such as the lung as a tissue that is capable of producing and supplying a protein deficient in a hereditary disease.
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