Litcius/Paper detail

A multi-scale map of protein assemblies in the DNA damage response

Anton Kratz, Minkyu Kim, Marcus R. Kelly, Fan Zheng, Christopher A. Koczor, Jianfeng Li, Keiichiro Ono, Yue Qin, Christopher Churas, Jing Chen, Rudolf Pillich, Jisoo Park, Maya Modak, Rachel Collier, Kate Licon, Dexter Pratt, Robert W. Sobol, Nevan J. Krogan, Trey Ideker

2023Cell Systems40 citationsDOIOpen Access PDF

Abstract

The DNA damage response (DDR) ensures error-free DNA replication and transcription and is disrupted in numerous diseases. An ongoing challenge is to determine the proteins orchestrating DDR and their organization into complexes, including constitutive interactions and those responding to genomic insult. Here, we use multi-conditional network analysis to systematically map DDR assemblies at multiple scales. Affinity purifications of 21 DDR proteins, with/without genotoxin exposure, are combined with multi-omics data to reveal a hierarchical organization of 605 proteins into 109 assemblies. The map captures canonical repair mechanisms and proposes new DDR-associated proteins extending to stress, transport, and chromatin functions. We find that protein assemblies closely align with genetic dependencies in processing specific genotoxins and that proteins in multiple assemblies typically act in multiple genotoxin responses. Follow-up by DDR functional readouts newly implicates 12 assembly members in double-strand-break repair. The DNA damage response assemblies map is available for interactive visualization and query (ccmi.org/ddram/).

Topics & Concepts

ChromatinDNA damageComputational biologyDNADNA repairDNA replicationBiologyCell biologyGeneticsDNA Repair MechanismsGenomics and Chromatin DynamicsRNA Research and Splicing