26 known interactors that were increasingly phosphorylated (22.8 ), and ATR (16; 19.5 ) and CHEK2 (10; 18.9 ) had many as well (see Table S8). These kinases are all best known for their role in signaling double-strand breaks, reinforcing the connection to this pathway observed in several of our screens. We also further examined potential transcription-related DNA MK-5172 web damage-signaling kinases by focusing on those that scored in the RNAi screen and were associated with a large number of UV-induced phosphorylation events. These were SRPK1 (associated with 20 proteins showing UV-induced phosphorylation [9.5 of its interactors]), CSNK2A2 and ILK (both 15; 13.1 and 7.8 , respectively), CLK2 (13; 20.6 ), and CDK8 (12; 16.4 ). Forty-five other protein kinases scored in the RNAi screen, and 35 of these were associated with at least one UVinduced phosphorylation event. A network analysis of SRPK1-associated proteins revealed that the two most highly phosphorylated SRPK1-interacting proteins are the tumor-associated genes BCLAF1 and THRAP3, both of which interact with both RNAPII and CSB (Figure 5B, blue spheres; Table S8). Another SRPK1-interacting phosphoprotein, apoptotic chromatin condensation inducer 1 (ACIN1), is particularly interesting as it also interacts with both RNAPII and CSB and scores as a low transcriber in the siRNA screen. SRPK1 has been reported as a cisplatin sensitivity factor (Schenk et al., 2001), providing an intriguing link to NER. In general, SRPK1, BCLAF1, THRAP3, and ACIN1 are associated with several networked proteins (PAXIP1, HNRNPM, SRRM2, EIF4A3, PNN, ALYREF, and STAU1) that also scored in many of our screens, including the RNAi screen (Figure 5B). Together, these data suggest a previously unrecognized role for the splicing-related kinase SRPK1 and its network partners in the transcription-related DNA damage response. Numerous other examples of affected pathways can be analyzed by the use of bioLOGIC. Data Integration–Intersecting and Weighting Individual Screens ACY241 supplement Finding new factors with a role in the transcription-related DNA damage response was the main initial motivation for this work. To uncover such factors, we used several different approaches to create ranked score lists. Initially, we simply awarded a point to each gene/protein scoring above the Z score threshold in an individual experiment. This yielded a distribution of scores,Cell Reports 15, 1597?610, May 17, 2016UV-induced phosphorylation event (12.5 ) (Figure 5A; Table S8). Among the CDK9 interactors, numerous scored in the RNAi screen and many interacted with RNAPII, CSB, or both. Importantly, one of the CDK9 cyclins, CCNT2, scored in the RNAi screen. HTATSF1, a pTEFb partner (Zhou et al., 1998), was strongly phosphorylated at several sites upon UV irradiation and scored as a low-transcriber in the RNAi screen as well. In addition, LARP7 regulates pTEFb activity by binding to and stabilizing 7SK RNA (He et al., 2008), which is in turn released fromANumber of proteinsNumber of proteinsSCAF8 GATAD2B HIBADH ANAPC2 PPP1R10 PPP1R12A SCAF355CSB/ERCC6 NUMA1 INTS2 TRIM28 EIF3A FANCD2 RPL19 RPS6 RPA1 ASCCBEqual weightHERC1 HTATSF1 CACYBP SCAF11 SETD2 SMC3 SMC3 RPDR2 RPA1 CSB TMPOFigure 6. Proteins and Processes that Score Highly in the Multiomic Screening Approach(A) Bar graph showing the number of proteins that scored above the Z score threshold in one or more screen. (B) Distribution of hits using aggregated Z scores. (C) As in (B), but with TC-NER score wei.26 known interactors that were increasingly phosphorylated (22.8 ), and ATR (16; 19.5 ) and CHEK2 (10; 18.9 ) had many as well (see Table S8). These kinases are all best known for their role in signaling double-strand breaks, reinforcing the connection to this pathway observed in several of our screens. We also further examined potential transcription-related DNA damage-signaling kinases by focusing on those that scored in the RNAi screen and were associated with a large number of UV-induced phosphorylation events. These were SRPK1 (associated with 20 proteins showing UV-induced phosphorylation [9.5 of its interactors]), CSNK2A2 and ILK (both 15; 13.1 and 7.8 , respectively), CLK2 (13; 20.6 ), and CDK8 (12; 16.4 ). Forty-five other protein kinases scored in the RNAi screen, and 35 of these were associated with at least one UVinduced phosphorylation event. A network analysis of SRPK1-associated proteins revealed that the two most highly phosphorylated SRPK1-interacting proteins are the tumor-associated genes BCLAF1 and THRAP3, both of which interact with both RNAPII and CSB (Figure 5B, blue spheres; Table S8). Another SRPK1-interacting phosphoprotein, apoptotic chromatin condensation inducer 1 (ACIN1), is particularly interesting as it also interacts with both RNAPII and CSB and scores as a low transcriber in the siRNA screen. SRPK1 has been reported as a cisplatin sensitivity factor (Schenk et al., 2001), providing an intriguing link to NER. In general, SRPK1, BCLAF1, THRAP3, and ACIN1 are associated with several networked proteins (PAXIP1, HNRNPM, SRRM2, EIF4A3, PNN, ALYREF, and STAU1) that also scored in many of our screens, including the RNAi screen (Figure 5B). Together, these data suggest a previously unrecognized role for the splicing-related kinase SRPK1 and its network partners in the transcription-related DNA damage response. Numerous other examples of affected pathways can be analyzed by the use of bioLOGIC. Data Integration–Intersecting and Weighting Individual Screens Finding new factors with a role in the transcription-related DNA damage response was the main initial motivation for this work. To uncover such factors, we used several different approaches to create ranked score lists. Initially, we simply awarded a point to each gene/protein scoring above the Z score threshold in an individual experiment. This yielded a distribution of scores,Cell Reports 15, 1597?610, May 17, 2016UV-induced phosphorylation event (12.5 ) (Figure 5A; Table S8). Among the CDK9 interactors, numerous scored in the RNAi screen and many interacted with RNAPII, CSB, or both. Importantly, one of the CDK9 cyclins, CCNT2, scored in the RNAi screen. HTATSF1, a pTEFb partner (Zhou et al., 1998), was strongly phosphorylated at several sites upon UV irradiation and scored as a low-transcriber in the RNAi screen as well. In addition, LARP7 regulates pTEFb activity by binding to and stabilizing 7SK RNA (He et al., 2008), which is in turn released fromANumber of proteinsNumber of proteinsSCAF8 GATAD2B HIBADH ANAPC2 PPP1R10 PPP1R12A SCAF355CSB/ERCC6 NUMA1 INTS2 TRIM28 EIF3A FANCD2 RPL19 RPS6 RPA1 ASCCBEqual weightHERC1 HTATSF1 CACYBP SCAF11 SETD2 SMC3 SMC3 RPDR2 RPA1 CSB TMPOFigure 6. Proteins and Processes that Score Highly in the Multiomic Screening Approach(A) Bar graph showing the number of proteins that scored above the Z score threshold in one or more screen. (B) Distribution of hits using aggregated Z scores. (C) As in (B), but with TC-NER score wei.