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Literature DB >> 27642160

Fully Blind Docking at the Atomic Level for Protein-Peptide Complex Structure Prediction.

Chengfei Yan¹, Xianjin Xu¹, Xiaoqin Zou².

Abstract

Protein-peptide interactions play an important role in many cellular processes. In silico prediction of protein-peptide complex structure is highly desirable for mechanistic investigation of these processes and for therapeutic design. However, predicting all-atom structures of protein-peptide complexes without any knowledge about the peptide binding site and the bound peptide conformation remains a big challenge. Here, we present a docking-based method for predicting protein-peptide complex structures, referred to as MDockPeP, which starts with the peptide sequence and globally docks the all-atom, flexible peptide onto the protein structure. MDockPeP was tested on the peptiDB benchmarking database using both bound and unbound protein structures. The results show that MDockPeP successfully generated near-native peptide binding modes in 95.0% of the bound docking cases and in 92.2% of the unbound docking cases. The performance is significantly better than other existing docking methods. MDockPeP is computationally efficient and suitable for large-scale applications.

Entities: Chemical Disease Species

Mesh：

Substances：
Peptides
Proteins

Year: 2016 PMID： 27642160 PMCID： PMC5080282 DOI： 10.1016/j.str.2016.07.021

Source DB: PubMed Journal: Structure ISSN： 0969-2126 Impact factor: 5.006

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