组氨酸
金属蛋白
计算生物学
溶解循环
残留物(化学)
化学
药物发现
氨基酸残基
蛋白质结构
肽序列
螯合作用
结构基因组学
生物
序列比对
生物化学
计算机科学
生物信息学
组合化学
单加氧酶
基因组
结构生物信息学
蛋白质法
结构母题
作者
João Paulo L. Franco Cairo,Thamy Lívia Ribeiro Côrrea,Wendy A. Offen,A.K. Nairn,Julia Walton,Sean T. Sweeney,G.J. Davies,Paul H. Walton
标识
DOI:10.1038/s41467-025-64309-x
摘要
Metalloprotein discovery is often made post hoc, in which activity studies following protein isolation reveal a metal-ion dependence. Herein we take a different approach to finding metalloproteins, by building on the discovery of copper-containing lytic polysaccharide monooxygenases (LPMOs), which include an N-terminal histidine as part of their sequence. This residue acts as a natural chelator for transition metal ions, irrespective of the structure of the protein. We report the method of signal strapping, where sequences of N-terminal signal peptides artificially appended with a histidine residue at their C-terminus are used to bootstrap a proteomic search. These searches return sequences of proteins with an N-terminal histidine capable of coordinating a metal ion. We exemplify the approach by the discovery and characterisation of four classes of bacterial metalloproteins, including two that we denote as anglerases reflecting their potential to capture transition metal ions from the bacterial environment.
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