蛋白质组学是旨在研究蛋白质表达谱和蛋白质与蛋白质之间相互作用的新领域,其研究必须依赖高通量、高自动化的技术。
Proteomics is a new field to research protein expression profiling and the protein-protein interaction. It must depend on high flux and high roboticized techniques.
为此,文章对蛋白芯片的主要原理和类型以及近几年蛋白芯片在蛋白质组学中的应用,尤其是在蛋白表达谱图和蛋白质相互作用谱图中的应用进行了综述。
This review briefly introduces the main theory and types of the protein microarray, and then sum up their applications in the expression profiling and the interaction profiling of proteins.
组学技术的应用也可更好地理解真菌植物间的相互作用,及掌握隐形霉菌毒素的结构。
Omics technologies are being used to understand the fungi-plant interaction better, hence formation of masked mycotoxins by the plants. Be aware that we have to be sharp in what to look for.
蛋白质组学是研究蛋白质的表达、翻译后修饰、在细胞内定位以及蛋白质与蛋白质之间的相互作用的科学。
Proteomics is a subject that aims to study the expression, translation and location of proteins, the relationship between proteins and proteins as well.
系统生物学通过整合各种“组学”来研究基因,分子和环境层面的各种相互作用对代谢类疾病的影响。
Systems-based approaches tackle the complex interplay of genetic, molecular, and environmental factors contributing to metabolic diseases by integrating a range of "omics" data.
系统生物学包括代谢组学,开启了研究中药及其与动物或人体相互作用的新途径。
System biology opens up a new way of further studying TCM itself and its interaction with animal and human body.
代谢组学方法越来越多地用于研究有机体与生态环境的相互作用。
Metabonomics methodology is increasingly being applied to investigate the interactions of organisms with their natural ecological environment.
因此,揭示蛋白质组中蛋白质间的相互作用关系也是蛋白质组学的重要内容之一。
Protein protein interactions are characteristic of cellular activities and of course an important part of proteomics.
营养基因组学是研究不同的食物是如何与特定的基因相互作用,进而影响这些基因的活动以及结构转变的科学。
It is the study of how different foods interact with particular genes, affecting how these genes act or altering their structures.
营养基因组学是研究不同的食物是如何与特定的基因相互作用,进而影响这些基因的活动以及结构转变的科学。
It is the study of how different foods interact with particular genes, affecting how these genes act or altering their structures.
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