新的研究发现了一种通过操纵宿主细胞内的一种常见信号通路来破坏早期宿主免疫反应并提高致病性的以前未知的酶反应机制。
New research identifies a previously unknown enzymatic mechanism that subverts the early host immune response and promotes pathogenicity by manipulating a common signaling pathway in host cells.
电极的峰电流与扫描速度的平方根成正比,电极上的传质过程受扩散控制,对酶催化反应的动力学机制进行了探讨。
The peak current is proportional to square root of scan rate, which indicated that the procedure is controlled by diffusion. The dynamic mechanism of the enzyme catalyzed reaction was discussed.
放大酶反应,对转化产物进行了制备及纯化,确认其结构,对呋甾皂苷、螺甾皂苷间的转化机制进行了探讨。
The products of enzymatic reaction were prepared and purified, the structures of which were also confirmed. The conversion mechanism from furostanol glycosides to spirostanol glycosides was discussed.
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