化学
绿色荧光蛋白
蛋白质标签
亮氨酸拉链
亚克隆
反平行(数学)
蛋白质-蛋白质相互作用
计算生物学
生物物理学
荧光
生物化学
质粒
融合蛋白
肽序列
生物
基因
重组DNA
物理
量子力学
磁场
作者
Thomas J. Magliery,Christopher G. Wilson,Weilan Pan,Dennis M. Mishler,Indraneel Ghosh,Andrew D. Hamilton,Lynne Regan
摘要
Identification of protein binding partners is one of the key challenges of proteomics. We recently introduced a screen for detecting protein-protein interactions based on reassembly of dissected fragments of green fluorescent protein fused to interacting peptides. Here, we present a set of comaintained Escherichia coli plasmids for the facile subcloning of fusions to the green fluorescent protein fragments. Using a library of antiparallel leucine zippers, we have shown that the screen can detect very weak interactions (K(D) approximately 1 mM). In vitro kinetics show that the reassembly reaction is essentially irreversible, suggesting that the screen may be useful for detecting transient interactions. Finally, we used the screen to discriminate cognate from noncognate protein-ligand interactions for tetratricopeptide repeat domains. These experiments demonstrate the general utility of the screen for larger proteins and elucidate mechanistic details to guide the further use of this screen in proteomic analysis. Additionally, this work gives insight into the positional inequivalence of stabilizing interactions in antiparallel coiled coils.
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