SRX22478367 GSM7889152_r1 SRP471126 PRJNA1037507 SRS19492005 GSM7889152 GSM7889152 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478368 GSM7889153_r1 SRP471126 PRJNA1037507 SRS19492006 GSM7889153 GSM7889153 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478369 GSM7889154_r1 SRP471126 PRJNA1037507 SRS19492007 GSM7889154 GSM7889154 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478370 GSM7889155_r1 SRP471126 PRJNA1037507 SRS19492008 GSM7889155 GSM7889155 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478371 GSM7889156_r1 SRP471126 PRJNA1037507 SRS19492009 GSM7889156 GSM7889156 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478372 GSM7889157_r1 SRP471126 PRJNA1037507 SRS19492010 GSM7889157 GSM7889157 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478373 GSM7889158_r1 SRP471126 PRJNA1037507 SRS19492011 GSM7889158 GSM7889158 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000 SRX22478374 GSM7889159_r1 SRP471126 PRJNA1037507 SRS19492012 GSM7889159 GSM7889159 OTHER GENOMIC other Cells were fixed with formaldehyde (1% final concentration) for 10 minutes at room temperature. Crosslinking was quenched with glycine (0.125M final concentration) for 5 minutes at room temperature. After cell and nuclei lysis, chromatin was fragmented in Diagenode Pico with a circulating water bath at 4°C using the Shear and Go Easy Mode setting for 3 cycles (30 seconds on followed by 30 seconds off). To amplify the integrated ChIP-ISO library sequences while excluding other genomic DNA, including native CCND1e, we performed two rounds of PCR amplification with a BbsI digestion step in between. The primer pairs for the first round of PCR contain regions annealing to the CCND1e (outside the 193bp library sequence) at the 3'-ends, partial Illumina TruSeq adaptor sequences at the 5'-end and 0-3 random nucleotide spacers in between to increase sequence complexity. Primers with different numbers of spacers are mixed in equimolar ratio for the first round of PCR. Preliminary PCR tests were performed to decide the optimal cycle number that keeps the PCR reactions in exponential phase. We used 23-25 cycles for our first round of PCR. For the first round of PCR, 30 μl of ChIP DNA was amplified in a 100 μl PCR reaction using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.9. 15 μL of the purified PCR product was digested with 20 U of BbsI in a 30 μL reaction at 37°C for two hours. The digestion products were purified with AMPure XP beads with a beads to DNA ratio of 0.9, followed by the second round of PCR. The primer pairs for the second round of PCR contain the rest of the Illumina TruSeq adaptor sequences and sample indexes. For the second round of PCR, 2 μl of purified digestion product was amplified in a 50 μl PCR reaction for 8 cycles using NEBNext Ultra II Q5 master mix. The PCR products were purified with AMPure XP beads with a beads to DNA ratio of 0.8. Quality control was conducted with TapeStation (Agilent). 30 million paired-end 150bp reads were obtained for each ChIP-ISO and input sample using a NextSeq 2000 (Illumina) instrument. NextSeq 2000