近年来的研究发现,许多癌基因和抑癌基因相关产物为细胞生长、增殖、分化等信号转导途径的成员。
It is known that many related products of oncogenes and anti - oncogenes take part in the signal transduction of grow, proliferation and differentiation of cells.
仅从运动性心肌肥大的生物学机制方面,就诱导其发生的刺激因素及其信号转导通路、基因表达等几个方面加以综述。
In this article we only reviewed the biological mechanism of exercise induced cardiac hypertrophy by its inductive stimulus, pass way for signal transduction and genetic expression.
近年来随着涎腺基因转导及组织工程等新技术方法的应用,涎腺功能重建取得了可喜的进展。
With the development of new technologies including gene transfer and tissue engineering, it is possible to reconstruct salivary gland functions.
这些基因分别与细胞增殖、基因转录、凋亡、信号转导、DNA损伤修复、肿瘤分化和浸润转移及细胞周期调节等相关。
These genes were involved in cell proliferation, gene transcription, apoptosis, signal transduction, DNA damage and repair, tumor differentiation and metastasis, cell cycle, and so on.
在BIT的诱导过程中,细胞在信号启动与转导,基因复制与转录,蛋白合成与修饰等环节发生相应的变化。
During the induction of BIT, some changes happen in the processes of signal triggering and transduction, gene duplication and transcription and protein synthesis and modification in cells.
细胞大规模培养、体细胞融合、基因转导等技术的研究和应用,可望从根本上改变甘薯传统的生产和育种模式。
The application of the techniques of large_scale cell culture, somatic cell fusion and gene transformation will greatly change the traditional mode of production and breeding of sweet potato.
其作用机理为抗氧化作用,抗细胞增殖,诱导细胞调亡,干预细胞转导和增强抑癌基因表达,干预细胞周期等。
The mechanism are antioxidation, cell proliferation suppression, apoptosis induction, cell signal transduction disturbing and tumor suppression gene activity enhancing, cell cycle disturbing etc.
BLAST分析表明,其中19个EST序列与已知功能基因序列同源性很高,分别参与了植物的防卫反应、胁迫反应、细胞解毒和信号转导等。
BLAST analysis revealed that 19 ESTs had high homology with known genes in GenBank involved in defense response, stress reaction, disease defense detoxification and signal transduction.
此外为信号转导、蛋白质合成加工、转运等相关基因;
The others had the high homology with signal transduction, protein synthesis and destination, transports.
本文主要论述了鲜味受体的研究进展、鲜味识别转导机制及鲜味受体基因的表达调控等,以期为相关研究提供参考。
In this paper, the research progress of umami receptors and transduction of umami recognition and umami receptors gene expression regulation were summarized.
本文主要论述了鲜味受体的研究进展、鲜味识别转导机制及鲜味受体基因的表达调控等,以期为相关研究提供参考。
In this paper, the research progress of umami receptors and transduction of umami recognition and umami receptors gene expression regulation were summarized.
应用推荐