将疏水性的PLLA掺合入基因转运载体后,能增强递药系统的与细胞的相互作用和组织渗透性。
Hydrophobic PLLA that is incorporated into the gene delivery vector is believed to enhance the cell interactions and tissue permeability of the delivery system.
除了帮助研究干细胞基因遗传,这种技术可以用来研究任何类型的细胞之间的相互作用。
In addition to helping with studies of stem cell reprogramming, this technique could be used to study interactions between any types of cells.
但是,细胞分化并非单一因素作用的结果,而是基因、细胞质及细胞外环境作用系统相互作用与反作用的结果。
The cell differentiation is not the result of the action of a single factor but of the interaction and counteraction of the action system among the gene, cytoplasm and extracellular environment.
目的探讨人外周血单个核细胞与猪内皮细胞相互作用后基因表达的变化。
Objective To investigate the change of gene expression after the interactions of human peripheral blood mononuclear cell (PBMC) and porcine endothelial cell.
这两种基因相互作用在滋养细胞浸润活性调控中起重要作用。
The coeffection of these two genes plays an important role in regulating the invasion of trophoblast.
这些相互作用控制了许多关键的细胞生理过程,譬如细胞分裂、细胞信号传导、离子运输、稳态水平、基因转录、翻译等等。
These interactions drive critically important cellular processes such as cell division, cell signaling, ion transportation, homeostasis, gene transcription, and translation, etc.
这一过程被一个名为热激活因子(HSF)的分子所触发,它与相关基因相互作用,发出合成新蛋白的信号,但这一广为人知的过程还从没有在活细胞中观察到。
The process is triggered by a molecule called heat shock factor (HSF), which interacts with genes to cue the synthesis of new proteins. But this well-known process had never been seen in living cells.
杆状病毒的分子生物学,基因功能、复制机制,及病毒与不同宿主细胞的相互作用关系。
The molecular biology, gene function and replication of baculovirus, and its interaction with various hosts cells.
细胞核中,抑制素通过与转录因子如rb和p 53相互作用来调节靶基因的转录(2,5)。
In the nucleus prohibitins interact with transcription factors such as Rb and p53 to regulate target gene transcription (2, 5).
细胞核中,抑制素通过与转录因子如rb和p 53相互作用来调节靶基因的转录(2,5)。
In the nucleus prohibitins interact with transcription factors such as Rb and p53 to regulate target gene transcription (2, 5).
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