A computational framework for boosting confidence in high-throughput protein-protein interaction datasets

被引：0

作者：

Raghavendra Hosur

Jian Peng

Arunachalam Vinayagam

Ulrich Stelzl

Jinbo Xu

Norbert Perrimon

Jadwiga Bienkowska

Bonnie Berger

机构：

[1] Computer Science and Artificial Intelligence Laboratory,Department of Genetics

[2] Toyota Technological Institute,Department of Mathematics

[3] Harvard Medical School,undefined

[4] Otto-Warburg Laboratory,undefined

[5] Ihnestraβe 63-73,undefined

[6] Max Planck Institute for Molecular Genetics,undefined

[7] Howard Hughes Medical Institute,undefined

[8] Computational Biology group,undefined

[9] Biogen Idec,undefined

[10] 14 Cambridge Center,undefined

[11] MIT,undefined

来源：

Genome Biology | / 13卷

关键词：

Markov Chain Monte Carlo; Protein Data Bank; Confidence Score; Interface Residue; Probabilistic Graphical Model;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Improving the quality and coverage of the protein interactome is of tantamount importance for biomedical research, particularly given the various sources of uncertainty in high-throughput techniques. We introduce a structure-based framework, Coev2Net, for computing a single confidence score that addresses both false-positive and false-negative rates. Coev2Net is easily applied to thousands of binary protein interactions and has superior predictive performance over existing methods. We experimentally validate selected high-confidence predictions in the human MAPK network and show that predicted interfaces are enriched for cancer -related or damaging SNPs. Coev2Net can be downloaded at http://struct2net.csail.mit.edu.

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