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.

Silk-based hydrogel incorporated with metal-organic framework nanozymes for enhanced osteochondral regeneration

Bioact Mater. 2022-05; 
Zhicheng Cao , Hongmei Wang , Jialin Chen , Yanan Zhang , Qingyun Mo , Po Zhang, Mingyue Wang , Haoyang Liu , Xueyang Bao , Yuzhi Sun , Wei Zhang , Qingqiang Yao
Products/Services Used Details Operation
Proteins, Expression, Isolation and Analysis BMSCs and chondrocytes were seeded into a 96-well plate and pretreated with extract of the scaffold from each group for 24 h. 1 ng/ml IL1β (Genscript, Nanjing, China) or 400 μM H2O2 (Yuanle, Shanghai, China) was added to the medium to stimulate cells for 20 min or 24 h, respectively. Get A Quote

摘要

Osteochondral defects (OCD) cannot be efficiently repaired due to the unique physical architecture and the pathological microenvironment including enhanced oxidative stress and inflammation. Conventional strategies, such as the control of implant microstructure or the introduction of growth factors, have limited functions failing to manage these complex environments. Here we developed a multifunctional silk-based hydrogel incorporated with metal-organic framework nanozymes (CuTA@SF) to provide a suitable microenvironment for enhanced OCD regeneration. The incorporation of CuTA nanozymes endowed the SF hydrogel with a uniform microstructure and elevated hydrophilicity. In vitro cultivation of mesenchymal stem ce... More

关键词

Inflammation; Metal-organic framework; Nanozyme; Osteochondral regeneration; ROS; Silk.
XML 地图