185629-32-7Relevant articles and documents
Exploring boron applications in modern agriculture: A structure-activity relationship study of a novel series of multi-substitution benzoxaboroles for identification of potential fungicides
Liu, Chunliang,Steere, Luke,McGregor, Cari,Frederick, Brittany H.,Pastoor, Timothy,Zhou, Yasheen,Liu, C. Tony,Cai, Yan,Zhou, Haibo,Xu, Musheng,Wang, Jiangong,Kim, Sang Hu,Whitesell, Luke,Cowen, Leah E.,Zhang, Yong-Kang
supporting information, (2021/05/19)
Several boron-containing small molecules have been approved by the US FDA to treat human diseases. We explored potential applications of boron-containing compounds in modern agriculture by pursuing multiple research and development programs. Here, we report a novel series of multi-substitution benzoxaboroles (1–36), a compound class that we recently reported as targeting geranylgeranyl transferase I (GGTase I) and thereby inhibiting protein prenylation (Kim et al., 2020). These compounds were designed, synthesized, and tested against the agriculturally important fungal pathogens Mycosphaerella fijiensis and Colletotrichum sublineolum in a structure–activity relationship (SAR) study. Compounds 13, 28, 30, 34 and 36 were identified as active leads with excellent antifungal MIC95 values in the range of 1.56–3.13 ppm against M. fijiensis and 0.78–3.13 ppm against C. sublineolum.
FXR RECEPTOR AGONIST
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Paragraph 0223-0225; 0272-0274, (2020/06/02)
The present invention belongs to the technical field of pharmaceuticals, and particularly relates to a compound of formula (I), a pharmaceutically acceptable salt thereof, an ester thereof or a stereoisomer of the compound, the salt or the ester, wherein
Anion ligand promoted selective C-F bond reductive elimination enables C(sp2)-H fluorination
Mao, Yang-Jie,Luo, Gen,Hao, Hong-Yan,Xu, Zhen-Yuan,Lou, Shao-Jie,Xu, Dan-Qian
supporting information, p. 14458 - 14461 (2019/12/09)
A detailed mechanism study on the anion ligand promoted selective C-H bond fluorination is reported. The role of the anion ligand has been clarified by experimental evidence and DFT calculations. Moreover, the nitrate promoted C-F bond reductive elimination enabled a selective C-H bond fluorination of various symmetric and asymmetric azobenzenes to access diverse o-fluoroanilines.