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.

Functional interdependence of the actin regulators CAP1 and cofilin1 in control of dendritic spine morphology

Cell Mol Life Sci. 2022-10; 
Anika Heinze, Cara Schuldt, Sharof Khudayberdiev, Bas van Bommel, Daniela Hacker, Toni G Schulz, Ramona Stringhi, Elena Marcello, Marina Mikhaylova, Marco B Rust
Products/Services Used Details Operation
Catalog Antibody … CAP1 and cofilin1, we demonstrated a cooperation of both ABP in regulating spine morphology. … CAP1-eGFP was purchased from Genscript. Other overexpression constructs, such as … Get A Quote

摘要

The vast majority of excitatory synapses are formed on small dendritic protrusions termed dendritic spines. Dendritic spines vary in size and density that are crucial determinants of excitatory synaptic transmission. Aberrations in spine morphogenesis can compromise brain function and have been associated with neuropsychiatric disorders. Actin filaments (F-actin) are the major structural component of dendritic spines, and therefore, actin-binding proteins (ABP) that control F-actin dis-/assembly moved into the focus as critical regulators of brain function. Studies of the past decade identified the ABP cofilin1 as a key regulator of spine morphology, synaptic transmission, and behavior, and they emphasized the ... More

关键词

Actin dynamics, Actin turnover, Postsynaptic density, Synaptic actin, Synaptic plasticity
XML 地图