Eukaryotic cells have evolved an intricate system to resolve DNA damage to prevent its transmission to daughter cells. This system, collectively known as the DNA damage response (DDR) network, includes a large number of proteins responsible for detection of DNA damage, promotion of repair, and coordination with cell cycle progression. Because defects in this network can lead to cancer, this network constitutes a barrier against tumorigenesis. The BRCT domain is a modular protein domain critical for relaying signals in the DDR. We performed a systematic analysis of protein-protein interactions involving tandem BRCT domains (tBRCT) in the DDR by combining literature curation, yeast two hybrid (Y2H) screens, and tandem affinity purification coupled to mass spectrometry (TAP-MS). We identified one previously unrecognized BRCT protein and generated human protein-protein interaction network for this type of modular domain. This study also reveals several novel components in DNA damage signaling such as COMMD1 and mTORC2. Additionally, integration of tBRCT domain interactions with DDR phosphoprotein studies and analysis of kinase-substrate interactions revealed signaling subnetworks that may aid in understanding the involvement of tBRCT in disease and DNA repair.