这说明,TASK-1可能作为一种化学感受分子参与呼吸中枢的调控过程。
The results provided TASK-1 can participate in the regulation of respiratory center as a chemosensory molecule.
利用这些化学感受器,昆虫可感知来自植物的各种化学信息,并由此而做出相应的行为反应。
By the chemosensory organ, insect can perceive chemical cues which coming from the plant and subsequently make a series of corresponding behavioral responses.
最后一个重要的抑制因子-潜水反射-与喉有关。喉全部覆盖有化学感受器,或味蕾。
The last important inhibitory factor-the dive reflex-is associated with the larynx. The larynx is covered all over with chemoreceptors, or taste buds.
最后一个重要的抑制因子-潜水反射-与喉有关。喉全部覆盖有化学感受器,或味蕾。 。
Thee last important inhibitory factor—the dive reflex—is associated with the larynx. The larynx is covered all over with chemoreceptors, or taste buds.
根据调控在这个网络中发生作用的位置,DNA损伤-应答的调控可能产生不同的结果,这包括化学感受性和化学保护两方面。
Modulation of the DNA-damage response, depending on where in the network this modulation occurs, could have different consequences including chemosensitization and chemoprotection.
根据调控在这个网络中发生作用的位置,DNA损伤-应答的调控可能产生不同的结果,这包括化学感受性和化学保护两方面。
Modulation of the DNA-damage response, depending on where in the network this modulation occurs, could have different consequences including chemosensitization and chemoprotection.
应用推荐