Rences between the “ON” and “OFF” transcriptional states? Our data suggest that there may be some differences in Pho binding to non-PRE fragments (Fig. 4). However, this data has to be interpreted with caution. The enGAL4 driver is an enhancer trap in the inv intron [38] and contains an en fragment extending from 22.4 kb through the en promoter. Thus, it is possible that the ITI214 web en-Gal4 driver alters Pho binding in the en/inv domain. In fact, the increased Pho-binding to non-PRE probes in the “ON” versus the “OFF” state in the FLAG-Sce samples suggests that the presence of the en-GAL4 driver alters Pho binding slightly.Figure 2. Stable expression of Pho-FLAG in cells that express En or Ci. UAS-Pho-FLAG expression by the en-GAL4 or ci -GAL4 driver. Anti-FLAG JTC-801 biological activity staining is red, anti-En staining is green. (A ) 3rd instar wing imaginal disc collected from a UAS-Pho-FLAG, en-GAL4 cross. Panel C shows nearly complete overlap of anti-FLAG and anti-En staining. (D ) 3rd instar wing imaginal disc collected from a UAS-Pho-FLAG, ci-GAL4 cross. Panel F shows complementary staining of anti-FLAG and anti-En. Note that the size of the anterior compartment, where Ci is expressed is about twice the size of the posterior compartment, where En is expressed [35]. (G) qRT-PCR showing that there is about twice as much Pho-FLAG transcript when it is driven by ci-Gal4 than by en-Gal4 (*** P#0.001). doi:10.1371/journal.pone.0048765.gexpressed in all cells for proper development. ci- and en-driven Pho-FLAG and Sce-FLAG binding were measured using probes upstream and within the en transcription unit (Fig. 4). Sce-FLAG was bound to PRE2 in both the “ON” and “OFF” transcriptional states. Pho-FLAG has a similar binding profile except that binding to the non-PRE probes in the “ON” chromatin was higher than the “OFF” chromatin, and there was some binding to PRE1. For comparison, Pho binding was measured using the same chromatin used for the FLAG-samples. Pho ChIP measures binding in both the “ON” and the “OFF” cells. Note that the Pho-binding was similar in both the Pho-FLAG samples and the Sce-FLAG samples, suggesting that the Pho-FLAG accurately reflects the distribution of endogenous Pho. We compared the level of X-ChIP binding to en PRE 2 with that of a control fragment from the en intron (probe 8) for all of the FLAG-tagged PcG proteins. Each experiment was repeated 3 times and the results were pooled in Fig. 5. Pho-FLAG, FLAGScm, Sce-FLAG, Esc-FLAG, were present at en PRE2 in both the “ON” and “OFF” transcriptional states of en. These ChIP results suggest that PcG proteins are present in the en “OFF” transcriptional state at higher levels than in the “ON” state. For example, the Pho-FLAG signal is 4 fold higher than the controlPcG Proteins Bind Constitutively to the en GeneFigure 3. FLAG-tagged PcG proteins co-localize with endogenous PcG proteins on polytene chromosomes. FLAG-tagged proteins were driven by arm-Gal4. doi:10.1371/journal.pone.0048765.gOne unexpected result from these experiments was that FLAGSce binds to PRE2 but not to PRE1 (Fig. 4). This is an interesting result that needs to be followed up on. Recent ChIP-Seq data in our lab using imaginal disk/brain larval samples and the anti-Pho antibody show 5 additional Pho binding peaks between en and tou, which could be 5 additional PREs (S. De and JAK, unpublished data). Three of these correspond to Pho binding peaks already identified by Oktaba et al. [39]. ChIP-seq experiments w.Rences between the “ON” and “OFF” transcriptional states? Our data suggest that there may be some differences in Pho binding to non-PRE fragments (Fig. 4). However, this data has to be interpreted with caution. The enGAL4 driver is an enhancer trap in the inv intron [38] and contains an en fragment extending from 22.4 kb through the en promoter. Thus, it is possible that the en-GAL4 driver alters Pho binding in the en/inv domain. In fact, the increased Pho-binding to non-PRE probes in the “ON” versus the “OFF” state in the FLAG-Sce samples suggests that the presence of the en-GAL4 driver alters Pho binding slightly.Figure 2. Stable expression of Pho-FLAG in cells that express En or Ci. UAS-Pho-FLAG expression by the en-GAL4 or ci -GAL4 driver. Anti-FLAG staining is red, anti-En staining is green. (A ) 3rd instar wing imaginal disc collected from a UAS-Pho-FLAG, en-GAL4 cross. Panel C shows nearly complete overlap of anti-FLAG and anti-En staining. (D ) 3rd instar wing imaginal disc collected from a UAS-Pho-FLAG, ci-GAL4 cross. Panel F shows complementary staining of anti-FLAG and anti-En. Note that the size of the anterior compartment, where Ci is expressed is about twice the size of the posterior compartment, where En is expressed [35]. (G) qRT-PCR showing that there is about twice as much Pho-FLAG transcript when it is driven by ci-Gal4 than by en-Gal4 (*** P#0.001). doi:10.1371/journal.pone.0048765.gexpressed in all cells for proper development. ci- and en-driven Pho-FLAG and Sce-FLAG binding were measured using probes upstream and within the en transcription unit (Fig. 4). Sce-FLAG was bound to PRE2 in both the “ON” and “OFF” transcriptional states. Pho-FLAG has a similar binding profile except that binding to the non-PRE probes in the “ON” chromatin was higher than the “OFF” chromatin, and there was some binding to PRE1. For comparison, Pho binding was measured using the same chromatin used for the FLAG-samples. Pho ChIP measures binding in both the “ON” and the “OFF” cells. Note that the Pho-binding was similar in both the Pho-FLAG samples and the Sce-FLAG samples, suggesting that the Pho-FLAG accurately reflects the distribution of endogenous Pho. We compared the level of X-ChIP binding to en PRE 2 with that of a control fragment from the en intron (probe 8) for all of the FLAG-tagged PcG proteins. Each experiment was repeated 3 times and the results were pooled in Fig. 5. Pho-FLAG, FLAGScm, Sce-FLAG, Esc-FLAG, were present at en PRE2 in both the “ON” and “OFF” transcriptional states of en. These ChIP results suggest that PcG proteins are present in the en “OFF” transcriptional state at higher levels than in the “ON” state. For example, the Pho-FLAG signal is 4 fold higher than the controlPcG Proteins Bind Constitutively to the en GeneFigure 3. FLAG-tagged PcG proteins co-localize with endogenous PcG proteins on polytene chromosomes. FLAG-tagged proteins were driven by arm-Gal4. doi:10.1371/journal.pone.0048765.gOne unexpected result from these experiments was that FLAGSce binds to PRE2 but not to PRE1 (Fig. 4). This is an interesting result that needs to be followed up on. Recent ChIP-Seq data in our lab using imaginal disk/brain larval samples and the anti-Pho antibody show 5 additional Pho binding peaks between en and tou, which could be 5 additional PREs (S. De and JAK, unpublished data). Three of these correspond to Pho binding peaks already identified by Oktaba et al. [39]. ChIP-seq experiments w.