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Cription shutdown observed after UV irradiation. Chromatin Proteome TC-NER factors such as CSA associate tightly with chromatin only upon DNA damage (Kamiuchi et al., 2002), prompting us to identify proteins that are associated with chromatin before and after DNA damage (Figure 3A; Table S4). At the same time, the chromatin proteome served as a reference proteome (input sample) for the interactomes described above. Proteins with a markedly increased presence in chromatin after DNA damage, such as EMC8 and the dehydrogenase HIBADH were observed, irrespective of treatment with MG132. Conversely, other proteins appeared to be depleted from chromatin upon UV irradiation. Some of these might be candidates for UV-induced proteasomal degradation. More than 150 proteins were markedly lost from chromatin in response to UV irradiation in the absence of MG132, with 50 of these Trichostatin A site failing to disappear in the presence of the proteasome inhibitor. As expected, RNAPII was among the latter proteins, but other interesting factors, such as interacts with SPT6 1 (IWS1), also disappeared upon DNA damage unless the proteasome was inhibited. The abundance of its Vercirnon site partner, SPT6 (SUPT6H), was reduced after UV treatment in the absence of MG132, but not in its presence (Figure 3A; Table S4).Cell Reports 15, 1597?610, May 17, 2016A4 SILAC z-score CSB-IP (MG132)CSB-AP VS CSB-AP (MG132)TFIIH.com CSA.com RNAPII Integrator.com PAF.com UVSSAPCF11 UVSSA NABP1/2 GTF2H1 C7ORF26 TERF2 CPSF3L CUL4A/B SCAF4 RPRD1B GTF2H2 TERF2IP RPRD1A CDK9 ERCC3/XPB INTS10 PHF3 INTS6 INTS7 INTS2 ERCC8 DDX26B INTS4 ASUN INTS5 VWA9 INTS3 INTS8 PPP1R10 INTS9 INTS12 INTSTCEBPAF1 NEDD–4 -4 -2 0 2 SILAC z-score CSB-IP0 0 1 2 3BInput + – + – +IP (FLAG)Input + + MG132 UV + – + – +IP (FLAG)-+-++–+MG132 UVIgG F IgG F IgG F IgG FIgG F IgG F IgG F IgG FCSB-FLAG RPB1 Ser7p Ser5p Thr4p Ser2p Tyr1pCCSB-FLAG UVSSA INTS4 C7Orf26 RECQL5 SCAF4 SCAF8 GTF2HRNAPII-IP (MG132)RNAPII XRN2 GTF2F2 GTF2F1 PAF.com PHF3 Cohesin.com PHRF1 RPA2 RPA1 SCAF8 SCAF4 RECQL5 SETD2 RNF168 CSB/ ERCCiBAQ/protein amountCMTRMYCUSP–0 Z-scoreFigure 2. Effect of UV-Induced DNA Damage on the CSB and RNAPII Interactomes(A) Left: UV-induced CSB interactome, in the presence and absence of MG132 as indicated. Right: enlargement of section indicated by box on the left. For clarity, only a few interesting proteins are indicated. Integrator subunits are labeled in yellow. (B) Western blots of CSB-Flag immunoprecipitation. The CSB-FLAG panel is duplicated to indicate that the panel rows belong to the same experiment. Note that CSB does not seem to enrich a specific, phosphorylated form of RNAPII (left panel). (C) The RNAPII interactome, in the presence of MG132. Some interesting proteins are indicated. Other proteins can be searched at http://www.biologic-db.org. See also Tables S1 and S2.1600 Cell Reports 15, 1597?610, May 17,AChr. vs. Chr. (MG132)Z-score Chrom. (MG132) 2 3 4Figure 3. Effect of UV-Induced DNA Damage on the Chromatin Proteome, Ubiquitylome, and the PhosphoproteomeEMCSUPT6H RNAPII IWS1 CSPF3LCSBHIBADHSNW1 MBNLXPCSETD(A) Left: effect of UV irradiation on the chromatin proteome in the presence and absence of MG132, as indicated. Right: enlargement of section indicated by box on the left. A few proteins are indicated. (B) As in (A), but for ubiquitylation. (C) As in (A) and (B), but phosphorylation. Other proteins can be searched at http://www.biologicdb.org. See also Tables S3, S4, and S5.Z-score Chrom. (MG132) -5 0-0–5 0 Z-score.Cription shutdown observed after UV irradiation. Chromatin Proteome TC-NER factors such as CSA associate tightly with chromatin only upon DNA damage (Kamiuchi et al., 2002), prompting us to identify proteins that are associated with chromatin before and after DNA damage (Figure 3A; Table S4). At the same time, the chromatin proteome served as a reference proteome (input sample) for the interactomes described above. Proteins with a markedly increased presence in chromatin after DNA damage, such as EMC8 and the dehydrogenase HIBADH were observed, irrespective of treatment with MG132. Conversely, other proteins appeared to be depleted from chromatin upon UV irradiation. Some of these might be candidates for UV-induced proteasomal degradation. More than 150 proteins were markedly lost from chromatin in response to UV irradiation in the absence of MG132, with 50 of these failing to disappear in the presence of the proteasome inhibitor. As expected, RNAPII was among the latter proteins, but other interesting factors, such as interacts with SPT6 1 (IWS1), also disappeared upon DNA damage unless the proteasome was inhibited. The abundance of its partner, SPT6 (SUPT6H), was reduced after UV treatment in the absence of MG132, but not in its presence (Figure 3A; Table S4).Cell Reports 15, 1597?610, May 17, 2016A4 SILAC z-score CSB-IP (MG132)CSB-AP VS CSB-AP (MG132)TFIIH.com CSA.com RNAPII Integrator.com PAF.com UVSSAPCF11 UVSSA NABP1/2 GTF2H1 C7ORF26 TERF2 CPSF3L CUL4A/B SCAF4 RPRD1B GTF2H2 TERF2IP RPRD1A CDK9 ERCC3/XPB INTS10 PHF3 INTS6 INTS7 INTS2 ERCC8 DDX26B INTS4 ASUN INTS5 VWA9 INTS3 INTS8 PPP1R10 INTS9 INTS12 INTSTCEBPAF1 NEDD–4 -4 -2 0 2 SILAC z-score CSB-IP0 0 1 2 3BInput + – + – +IP (FLAG)Input + + MG132 UV + – + – +IP (FLAG)-+-++–+MG132 UVIgG F IgG F IgG F IgG FIgG F IgG F IgG F IgG FCSB-FLAG RPB1 Ser7p Ser5p Thr4p Ser2p Tyr1pCCSB-FLAG UVSSA INTS4 C7Orf26 RECQL5 SCAF4 SCAF8 GTF2HRNAPII-IP (MG132)RNAPII XRN2 GTF2F2 GTF2F1 PAF.com PHF3 Cohesin.com PHRF1 RPA2 RPA1 SCAF8 SCAF4 RECQL5 SETD2 RNF168 CSB/ ERCCiBAQ/protein amountCMTRMYCUSP–0 Z-scoreFigure 2. Effect of UV-Induced DNA Damage on the CSB and RNAPII Interactomes(A) Left: UV-induced CSB interactome, in the presence and absence of MG132 as indicated. Right: enlargement of section indicated by box on the left. For clarity, only a few interesting proteins are indicated. Integrator subunits are labeled in yellow. (B) Western blots of CSB-Flag immunoprecipitation. The CSB-FLAG panel is duplicated to indicate that the panel rows belong to the same experiment. Note that CSB does not seem to enrich a specific, phosphorylated form of RNAPII (left panel). (C) The RNAPII interactome, in the presence of MG132. Some interesting proteins are indicated. Other proteins can be searched at http://www.biologic-db.org. See also Tables S1 and S2.1600 Cell Reports 15, 1597?610, May 17,AChr. vs. Chr. (MG132)Z-score Chrom. (MG132) 2 3 4Figure 3. Effect of UV-Induced DNA Damage on the Chromatin Proteome, Ubiquitylome, and the PhosphoproteomeEMCSUPT6H RNAPII IWS1 CSPF3LCSBHIBADHSNW1 MBNLXPCSETD(A) Left: effect of UV irradiation on the chromatin proteome in the presence and absence of MG132, as indicated. Right: enlargement of section indicated by box on the left. A few proteins are indicated. (B) As in (A), but for ubiquitylation. (C) As in (A) and (B), but phosphorylation. Other proteins can be searched at http://www.biologicdb.org. See also Tables S3, S4, and S5.Z-score Chrom. (MG132) -5 0-0–5 0 Z-score.

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Author: Proteasome inhibitor