指4-磷酸赤藓糖和磷酸烯醇式丙酮酸化合后经几步反应生成莽草酸,再由莽草酸生成芳香氨基酸和其他多种芳香族化合物的途径。
莽草酸途径莽草酸途径(shikimic acid pathway)是指4-磷酸赤藓糖和磷酸烯醇式丙酮酸化合后经几步反应生成莽草酸,再由莽草酸生成芳香氨基酸和其他多种芳香族化合物的途径。
基于532个网页-相关网页
A certain dose of UV radiation could significantly induce the expression of most of genes in shikimate pathway and the expression of VvCM-1,VvCM-2 and VvAS in post-chorismate pathway,but gene expression was reduced when higher or lower radiation was applied.
一定剂量的紫外照射可显著地诱导莽草酸途径的大部分基因和后分支酸途径的VvCM-1、VvCM-2和VvAS的表达;高于或低于该剂量,表达量明显降低。
参考来源 - 紫外照射对葡萄果实莽草酸途径相关基因表达的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
重要的是,除草剂草甘膦可以抑制这些寄生虫的生长,表明莽草酸途径(shikimate pathway)可以成为开发一种新型抗寄生虫剂的好目标。
Importantly, the growth of these parasites can be inhibited by the herbicide glyphosate, suggesting that the shikimate pathway will make a good target for the development of new anti-parasite agents.
探讨该化合物的质谱特征离子与裂解途径,提供莽草酸的质谱学基础。
The characteristic ions and fragmentation patterns of shikimic acid were discussed by EIMS, ESIMS and MS/MS.
探讨该化合物的质谱特征离子与裂解途径,提供莽草酸的质谱学基础。
The mass spectra were interpreted mainly by comparing the fragments of six compounds, and their fragmentation patterns were proposed.
应用推荐