Background: Intrinsically disordered proteins or regions (IDPs or IDRs) lack stable structures in solution, yet often fold upon binding with partners. IDPs or IDRs are highly abundant in all proteomes and represent a significant modification of sequence → structure → function paradigm. The Protein Data Bank (PDB) includes complexes containing disordered segments bound to globular proteins, but the molecular mechanisms of such binding interactions remain largely unknown. Results: In this study, we present the results of various disorder predictions on a nonredundant set of PDB complexes. In contrast to their structural appearances, many PDB proteins were predicted to be disordered when separated from their binding partners. These predicted-to-be-disordered proteins were observed to form structures depending upon various factors, including heterogroup binding, protein/DNA/RNA binding, disulfide bonds, and ion binding. Conclusions: This study collects many examples of disorder-to-order transition in IDP complex formation, thus revealing the unusual structure–function relationships of IDPs and providing an additional support for the newly proposed paradigm of the sequence → IDP/IDR ensemble → function.
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机译:背景:本质无序的蛋白质或区域(IDP或IDRS)缺乏溶液稳定的结构,但在与合作伙伴结合时经常折叠。 IDPS或IDR在所有蛋白质中的高度丰富,并且代表序列→结构→功能范例的显着修改。蛋白质数据库(PDB)包括含有与球状蛋白结合的无序区段的复合物,但这种结合相互作用的分子机制仍然很大程度上是未知的。结果:在这项研究中,我们介绍了对NOREDROLDEN的PDB复合物组中的各种疾病预测结果的结果。与它们的结构外观相比,预计许多PDB蛋白在与其结合伴侣分离时被紊乱。观察到这些预测的待失调的蛋白质根据各种因素形成结构,包括异质组结合,蛋白质/ DNA / RNA结合,二硫键和离子结合。结论:本研究收集IDP复杂形成中的令人紊乱转换的许多例子,从而揭示了IDP的不寻常的结构功能关系,并为序列→IDP / IDR合奏→功能的新提出的范例提供了额外的支持。
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