细菌融合看来是微生物遗传学研究的一个较大的进展。
Bacteria fusion promises to be a major advance in research involving microbial genetics.
Genencor用一种改变了基因的大肠细菌来制造生物异戊二烯,该细菌在微生物遗传学界最受欢迎。
Genencor used a genetically modified form of E-coli, a favourite species of bacteria in microbial genetics, to produce BioIsoprene.
他们用来做平台的是大肠杆菌——微生物遗传过程中的“苦力”,其变体能把其它细菌的基因拼接到自己身上。
Their bacterial platform is E. coli, the workhorse species of microbial genetics. But their version has had genes from several other bacteria spliced into it.
该项技术在细菌、酵母菌、链霉菌和霉菌等方面的研究和初步应用,为工业微生物遗传育种,开辟了广阔的前景。
The technology, which has been studied and used on bacteria, saccharomyces, streptomycete and mold, could be considered a good way for mutation breeding of industrial microbiology.
亦称为微生物遗传学专题实验,这是一个动手操作之研究课程,它被设计为介绍给学生微生物学之研究方法及其挑战。
Also referred to as the Microbial Genetics Project Lab, this is a hands-on research course designed to introduce the student to the strategies and challenges associated with microbiology research.
来自哈佛大学医学院实验室的新见解:微生物遗传学家罗伯特·科特勒揭示了造成该集群现象的一种前所未知的细菌间交流途径。
New insights from the lab of Harvard Medical School microbial geneticist Roberto Kolter reveal previously unknown communication pathways that cause such social phenomenon.
遗传改良的传统方法,如传统诱变和接合作用可用于提高微生物培养物的质量。
Traditional methods of genetic improvement such as classical mutagenesis and conjugation can be applied to improve the quality of microbial cultures.
有一个巧妙的方法来纯化dna,用一种酶能够辨别和摧毁微生物有机体的遗传物质而不会销毁太多相关的DNA。
Purifying it involved a clever trick using enzymes that can identify and destroy the genetic material of micro-organisms without also destroying too much of the DNA of interest.
科学家也担心失去新近发现的或待发现有着独特新陈代谢方式和未知的遗传方法的微生物。
Scientists are also concerned about losing recently discovered and yet-to-be discovered microorganisms with unique metabolisms and unexplored genetics.
如果发明中利用了基因资源,专利申请人必须申明其所使用的所有从人、动植物或微生物中获取的遗传物质。
They require patent applicants to declare any use of hereditary material obtained from humans, animals, plants or microbes if inventions are dependent on those genetic resources.
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?
处于发光模式时,该计数器适用于微生物学、免疫学和遗传研究中的很多共同技术。
In Luminescence mode, Triathler allows a full range of techniques common in microbiology, immunology, and genetic research.
A 6掌握植物学、动物学、微生物学、生物化学、遗传学、细胞生物学、分子生物学等生物学基础学科相关的基础理论和基本知识。
A6 To have a solid basic theory and basic knowledge of biology-based courses, including botany, zoology, microbiology, biochemistry, genetics, cell biology, molecular biology, etc.
考试内容基本都差不多的,生物化学、分子、遗传、微生物之类的,发酵还要考数学,看你选择的方向了。
Exam content is basic about the same, of biochemistry, element, genetic, microbial and so on, ferment study maths even, see the way that you choose.
这是因为一般来说,抗生素作为治疗药物,微生物获得抗药性的遗传能力,这导致制药行业出现了问题。
This is because in general, microorganisms have the genetic ability to acquire multi resistances to antibiotic used as therapeutic agents and this have caused problems to pharmaceutical industries.
植物学、动物学、微生物学、生物化学、分子生物学、细胞生物学、遗传学、生物信息学、基因工程、酶工程、发酵工程、细胞工程。
Botany, Animal, Microbiology, Biochemistry, Molecular biology, cell biology, Genetics, Bioinformatics, genetic engineering, Enzyme engineering, fermentation engineering, cell engineering, etc.
应用微生物形态学和RAPD技术,对转化子的遗传背景进行鉴定。
With microbe morphologic and RAPD technique, we made a fringe identification of inherited background of the transformant.
类和动物病理学专业研究因果关系,包括死亡,活体的疾病和受伤等。课程包括微生物学,遗传学和特定的细胞等。
Pathology majors study the causes and effects, including death, of disease and injury on living bodies. Topics of instruction include microbiology, genetics, specific organs, and more.
这类方法包括发酵经遗传修饰的微生物或植物来产生L -抗坏血酸。
Such a method includes fermentation of a genetically modified microorganism or plant to produce L-ascorbic acid.
木霉作为一种新的微生物肥料开发菌,其遗传学特性不稳定,促生长机制尚不明确。
SPP, as a new useful fungus of microorganism manure, its genetic peculiarity isn't stability, the mechanism of promoting plant growth isn't clear.
生物化学,微生物学,植物遗传学,细胞信号及其规律和其他相关课程。
Courses include biochemistry, microbiology, plant genetics, cell signaling and regulation, and similar subjects.
基因治疗的目的是将遗传物质导入细胞并使之得到适宜水平的表达,以纠正机体的遗传缺陷,恢复细胞的正常功能或杀死癌细胞及致病微生物。
The ultimate goal of gene therapy is correction of the genetic disorders by introducing the genetic materials into targeted cells, and gene expression should be permanent and at an appropriate level.
生物学:稍稍知道一些本科层次的生物学知识,包括生化、动植物生理学、微生物学、生态学、遗传学等。
Biology: I also know a little about biology at an undergraduate level, including biochemistry, physiology, microbiology, ecology, genetics, etc.
摘要:表观遗传学对于微生物的生命进程起着重要作用。
Abstract: Epigenetics plays an important role in biological processes of microorganisms.
正是这次经验促使我去担任微生物和病毒遗传学课程的助教。
It was this experience that motivated me to seek a position as a teacher's assistant for a course in Microbial and Viral Genetics.
可能影响动物实验结果的遗传学、微生物学、寄生虫学、环境和饲料营养等因素。
Genetic, microbiological, parasitic, environmental and nutritional factors influencing the outcome of animal experiment.
微生物是低等生物,遗传背景比较简单,一旦突变就会形成新的东西,这对航天育种研究有非常大的价值。
For microbial strain with simple genetic background, outer space conditions can make microorganism change into a new type, which is valuable for space breeding research.
介绍了几种常见微生物优化方法在木糖醇发酵中的应用,主要有正交设计法、均匀设计法、 遗传算法等方法。
The article introduces several useful optimum methods applied in xylitol fermentation process. They includes orthogonal and recursive design, uniform design, genetic A1gorithms etc.
介绍了几种常见微生物优化方法在木糖醇发酵中的应用,主要有正交设计法、均匀设计法、 遗传算法等方法。
The article introduces several useful optimum methods applied in xylitol fermentation process. They includes orthogonal and recursive design, uniform design, genetic A1gorithms etc.
应用推荐