A few progresses have been made about the cellular receptors of calicivirus in some kinds of this family, but a blank to RHDV.
关于杯状病毒的细胞受体,目前只在少数几个种属中获得了一定的进展,但关于RHDV的细胞受体仍是一片空白。
The glycoproteins (GP) of enveloped viruses facilitate entry into the host cell by interacting with specific cellular receptors.
病毒外壳的糖蛋白通过与特异性的细胞受体结合便于侵入宿主细胞。
Selecting small molecular ligands or monoclonal antibodies to cellular receptors as inhibitors is an effective approach to inhibit virus infection.
筛选小分子受体配基或抗受体蛋白的单克隆抗体作为阻断剂,是阻断病毒感染的有效途径。
The cellular activity that produces these receptors also produces a type of circular DNA molecule as a by-product.
而产生这些受体的细胞活性也会制造副产品——一种环状DNA分子。
Drugs like propofol act on these GABA a receptors, mimicking and enhancing the effects of GABA, which inhibits cellular activity.
异丙酚一类的药物能够作用于这类接收GABA的神经末梢,通过模拟和增强GABA引起的效果,起到抑制细胞活性的作用。
In response to such incoming information, receptors on a cell's surface send signals to the nucleus that tweak gene expression and control cellular function.
细胞表面的受体对外界信息的相应反应就是将信息以信号的形式传递给启动基因表达和控制细胞功能的细胞核。
Although transmembrane receptors from cell surface to nucleus can generally regulate the cellular life activities, their pathways of nuclear translocation still remain to be elucidated.
跨膜受体可从膜表面进入细胞核内直接调控细胞的生命活动,但其核转位的途径至今尚无定论。
Those targets for monoclonal antibodies therapy include cellular growth factor receptors and cell surface antigens, etc.
单克隆抗体治疗的靶点包括细胞表面抗原和生长因子受体等。
It covers basic cellular and molecular biology of growth factors and their receptors, as well as their role in cancer and cancer metastasis in clinical Settings.
它包括增长系数和他们的感受器,以及在癌症里的他们的作用和在临床的底座里的癌症新陈代谢的基本的细胞和分子生物学。
The pathogenesis of pituitary adenomas is considered to be related with gene mutation, growth factors, cell receptors, transcription factors, and cellular signaling pathways.
目前认为垂体腺瘤的发生与基因突变、生长因子、细胞受体、转录因子和细胞信号通路等有关。
When ligands bind to a specific subset of receptors, the ligands stabilize specific protein conformations, turning on (or off) molecular switches that control diverse cellular functions.
当配体与特定的受体结合,他能稳定蛋白构象,通过打开(或关闭)分子开关控制细胞内不同的分子功能。
Siramesine is known to bind sigma-receptors, which physiological role remains unknown, on the cellular surface and this interaction was also believed to underlie its anti-tumor actions.
已知西拉美新可以结合细胞表面的sigma受体,该受体的生理功能仍不清除,目前认为这种结合是其抗肿瘤作用的基础。
Siramesine is known to bind sigma-receptors, which physiological role remains unknown, on the cellular surface and this interaction was also believed to underlie its anti-tumor actions.
已知西拉美新可以结合细胞表面的sigma受体,该受体的生理功能仍不清除,目前认为这种结合是其抗肿瘤作用的基础。
应用推荐