信号识别颗粒(SRP)在真核细胞中如何定向和转运蛋白质是非常清楚和统一的。
How proteins are targeted and translocated mediated by signal recognition particle (SRP) in eukaryotic cell is very clear and uniform.
CD24-Siglec复合体还可识别另一种内源性危险信号热休克蛋白,但对脂多糖或poly-(dI:dC)这两种外源性危险信号均无反应。
The CD24-Siglec complex also recognizes heat shock proteins, another class of endogenous danger signals, but does not respond to lipopolysaccharide or poly-(dI:dC), two exogenous danger signals.
特异的信号基序不仅包括蛋白激酶可以识别的序列(1),也包括那些能够被磷酸化依赖结合蛋白如14-3-3识别的序列(2)。
Specific signaling motifs include not only sequences that are recognized by protein kinases (1), but also those that are recognized by phosphorylation-dependent binding proteins such as 14-3-3 (2).
蛋白质的可逆磷酸化过程在细胞的信号识别与转导中起重要作用,蛋白激酶主要催化蛋白质的磷酸化作用。
The reversible phosphorylation of protein kinase plays important roles in many signal identifying and transfer in cell. The protein kinases mainly catalyse phosphorylation of proteins.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
应用推荐