Galaxy银河|澳门官网·登录入口

至今,GenScript的服务及产品已被Cell, Nature, Science, PNAS等1300多家生物医药类杂志引用近万次,处于行业领先水平。NIH、哈佛、耶鲁、斯坦福、普林斯顿、杜克大学等约400家全球著名机构使用GenScript的基因合成、多肽服务、抗体服务和蛋白服务等成功地发表科研成果,再次证明GenScript 有能力帮助业内科学家Make research easy.

Hinge Binder Scaffold Hopping Identifies Potent Calcium/Calmodulin-Dependent Protein Kinase Kinase 2 (CAMKK2) Inhibitor Chemotypes

J Med Chem. 2021-07; 
Benjamin J Eduful, Sean N O'Byrne, Louisa Temme, Christopher R M Asquith, Yi Liang, Alfredo Picado, Joseph R Pilotte, Mohammad Anwar Hossain, Carrow I Wells, William J Zuercher, Carolina M C Catta-Preta, Priscila Zonzini Ramos, André de S Santiago, Rafael M Couñago, Christopher G Langendorf, Kévin Nay, Jonathan S Oakhill, Thomas L Pulliam, Chenchu Lin, Dominik Awad, Timothy M Willson, Daniel E Frigo, John W Scott, David H Drewry
Products/Services Used Details Operation
Stable Cell Lines 0.02% (v/v) Brij-35] containing 200 μM CaMKKtide (Genscript) Get A Quote

摘要

CAMKK2 is a serine/threonine kinase and an activator of AMPK whose dysregulation is linked with multiple diseases. Unfortunately, STO-609, the tool inhibitor commonly used to probe CAMKK2 signaling, has limitations. To identify promising scaffolds as starting points for the development of high-quality CAMKK2 chemical probes, we utilized a hinge-binding scaffold hopping strategy to design new CAMKK2 inhibitors. Starting from the potent but promiscuous disubstituted 7-azaindole GSK650934, a total of 32 compounds, composed of single-ring, 5,6-, and 6,6-fused heteroaromatic cores, were synthesized. The compound set was specifically designed to probe interactions with the kinase hinge-binding residues. Compared to G... More

关键词

XML 地图