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ring1b chip seq  (Cell Signaling Technology Inc)


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    Cell Signaling Technology Inc ring1b chip seq
    (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and <t>RING1B.</t> For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .
    Ring1b Chip Seq, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 95/100, based on 142 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/ring1b chip seq/product/Cell Signaling Technology Inc
    Average 95 stars, based on 142 article reviews
    ring1b chip seq - by Bioz Stars, 2026-06
    95/100 stars

    Images

    1) Product Images from "Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders"

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    Journal: Molecular cell

    doi: 10.1016/j.molcel.2026.01.023

    (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and RING1B. For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .
    Figure Legend Snippet: (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and RING1B. For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .

    Techniques Used: Expressing, Mutagenesis, Sequencing, Residue, Binding Assay, Stable Transfection, Fractionation

    (A) Strategy to generate Rnf2 WT/R70H ESCs by homologous recombination. (B) DEG from WT and two clones of Rnf2 WT/R70H ESCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) GO of upregulated genes in Rnf2 WT/R70H ESCs. (D) Heatmaps of Ring1b, H3K27me3, and H2AK119ub ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (E) Strategy to generate HA and FLAG-tagged Rnf2 alleles by CRISPR-Cas9 in WT and Rnf2 WT/R70H ESCs. (F) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in WT and Rnf2 WT/R70H ESCs. Signal was generated from two biological replicates from two independent WT and Rnf2 WT/R70H clones. HA and FLAG Cut&Run signals were merged (average of 4 replicates) to avoid potential bias from the HA and FLAG antibodies’ efficiency. (G) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H ESCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as a negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H ESCs. (H) Heatmaps of Cbx7 and Pcgf2, Rybp, Mtf2/Pcl2, and Jarid2 ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (I) Genome browser screenshots of ChIP-seq from (H). (J) Mutabind2 scores upon the human RING1B R70H variant vs. full length and lacking their IDR, PCGF1-6 using AlphaFold and ColabFold. (K) Full-length Pcgf2 or lacking the IDR used in (L). (L) Anti-HA IPs followed by WBs against HA, Phc1, and Ring1b in WT and Rnf2 WT/R70H ESCs expressing HA-Pcgf2 WT or HA-Pcgf2 ΔIDR . (M) Model of PRC1/2 recruitment in Rnf2 WT/R70H ESCs. See also .
    Figure Legend Snippet: (A) Strategy to generate Rnf2 WT/R70H ESCs by homologous recombination. (B) DEG from WT and two clones of Rnf2 WT/R70H ESCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) GO of upregulated genes in Rnf2 WT/R70H ESCs. (D) Heatmaps of Ring1b, H3K27me3, and H2AK119ub ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (E) Strategy to generate HA and FLAG-tagged Rnf2 alleles by CRISPR-Cas9 in WT and Rnf2 WT/R70H ESCs. (F) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in WT and Rnf2 WT/R70H ESCs. Signal was generated from two biological replicates from two independent WT and Rnf2 WT/R70H clones. HA and FLAG Cut&Run signals were merged (average of 4 replicates) to avoid potential bias from the HA and FLAG antibodies’ efficiency. (G) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H ESCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as a negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H ESCs. (H) Heatmaps of Cbx7 and Pcgf2, Rybp, Mtf2/Pcl2, and Jarid2 ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (I) Genome browser screenshots of ChIP-seq from (H). (J) Mutabind2 scores upon the human RING1B R70H variant vs. full length and lacking their IDR, PCGF1-6 using AlphaFold and ColabFold. (K) Full-length Pcgf2 or lacking the IDR used in (L). (L) Anti-HA IPs followed by WBs against HA, Phc1, and Ring1b in WT and Rnf2 WT/R70H ESCs expressing HA-Pcgf2 WT or HA-Pcgf2 ΔIDR . (M) Model of PRC1/2 recruitment in Rnf2 WT/R70H ESCs. See also .

    Techniques Used: Homologous Recombination, Clone Assay, ChIP-sequencing, CRISPR, Generated, Liquid Chromatography with Mass Spectroscopy, Negative Control, Variant Assay, Expressing

    (A) Protocol to generate and differentiate NPCs. (B) Heatmap of DEG from ESCs vs. NPCs vs. differentiated NPCs (log 2 fold > 4, q < 0.01) and between WT and two clones of Rnf2 WT/R70H ESCs, NPCs, and 12-day-old differentiated NPCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) IFs of neuronal markers in WT and Rnf2 WT/R70H differentiated NPCs. n = 3 independent experimental replicates. Scale bar, 10 μm. (D) WBs of PRC1 subunits from WT ESCs and Pcgf2 KO and Rnf2 WT/R70H with and without Pcgf2 . (E) Pictures of NPCs derived from cells in (D). n = 4 independent experimental replicates. Scale bar, 400 μm. (F) Strategy to generate NPCs expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in PRC1 CKO cells. (G) WBs of HA and Ring1b in PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in the presence and absence of OHT treatment for 48 h. Vinculin was used as a loading control. (H) Pictures of NPCs derived from cells in (G) in a constant presence of OHT treatment. n = 2. Scale bar, 400 μm. (I) WBs of Nanog, Pax6, and H2AK119ub in NPCs derived from PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K . Vinculin was used as a loading control. (J) UMAP plots of scRNA-seq from 16-day-old WT and two clones of Rnf2 WT/R70H differentiated NPCs. n = 2 independent experimental replicates. (K) Cell type proportions of cells from (E). * p < 0.05. ANOVA test. (L) KEGG pathway of WT and two clones of Rnf2 WT/R70H NPCs. See also .
    Figure Legend Snippet: (A) Protocol to generate and differentiate NPCs. (B) Heatmap of DEG from ESCs vs. NPCs vs. differentiated NPCs (log 2 fold > 4, q < 0.01) and between WT and two clones of Rnf2 WT/R70H ESCs, NPCs, and 12-day-old differentiated NPCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) IFs of neuronal markers in WT and Rnf2 WT/R70H differentiated NPCs. n = 3 independent experimental replicates. Scale bar, 10 μm. (D) WBs of PRC1 subunits from WT ESCs and Pcgf2 KO and Rnf2 WT/R70H with and without Pcgf2 . (E) Pictures of NPCs derived from cells in (D). n = 4 independent experimental replicates. Scale bar, 400 μm. (F) Strategy to generate NPCs expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in PRC1 CKO cells. (G) WBs of HA and Ring1b in PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in the presence and absence of OHT treatment for 48 h. Vinculin was used as a loading control. (H) Pictures of NPCs derived from cells in (G) in a constant presence of OHT treatment. n = 2. Scale bar, 400 μm. (I) WBs of Nanog, Pax6, and H2AK119ub in NPCs derived from PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K . Vinculin was used as a loading control. (J) UMAP plots of scRNA-seq from 16-day-old WT and two clones of Rnf2 WT/R70H differentiated NPCs. n = 2 independent experimental replicates. (K) Cell type proportions of cells from (E). * p < 0.05. ANOVA test. (L) KEGG pathway of WT and two clones of Rnf2 WT/R70H NPCs. See also .

    Techniques Used: Clone Assay, Derivative Assay, Expressing, Control

    (A) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in either WT or Rnf2 WT/R70H NPCs in WT Ring1b peak regions. Two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (B) Normalized H3K27me3 and H2AK119ub Cut&Run signals in either WT or Rnf2 WT/R70H NPCs over all genome. Signal was generated from two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (C) Genome browser screenshots of HA, FLAG, H3K27me3, and H2AK119ub Cut&Run (average signal between replicates) in the cells shown on the left. (D) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H NPCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H NPCs. (E) RNA-seq heatmap of PcG target genes in ESCs that are upregulated in WT NPCs but retained PRC1/2 and are repressed in Rnf2 WT/R70H NPCs. #1 and #2 are two different Rnf2 WT/R70H ESC clones. On the right, GO from each cluster. Deseq2; Wald test (FC > 4), q < 0.05. (F) Simplified genome browser screenshots of Ring1b WT , Ring1b R70H , H3K27me3, and H2AK119ub Cut&Run in WT and Rnf2 WT/R70H NPCs. Ring1b signal in WT NPCs and Ring1b WT and Ring1b R70H signals in Rnf2 WT/R70H NPCs are from merging average signals HA and FLAG Cut&Run two replicates from two clones. (G) Normalized signal of Ring1b WT and Ring1b R70H Cut&Run signals as in (F) around the transcription start site (TSS) of genes from (E). (H) Normalized signal of H3K27me3 and H2AK119ub Cut&Run signals (average from two replicates) as in (F) around the TSS of genes from (E). (I) Normalized ATAC-seq signal (average from two replicates) in WT and Rnf2 WT/R70H ESCs and NPCs around the TSS of genes from (E). See also .
    Figure Legend Snippet: (A) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in either WT or Rnf2 WT/R70H NPCs in WT Ring1b peak regions. Two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (B) Normalized H3K27me3 and H2AK119ub Cut&Run signals in either WT or Rnf2 WT/R70H NPCs over all genome. Signal was generated from two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (C) Genome browser screenshots of HA, FLAG, H3K27me3, and H2AK119ub Cut&Run (average signal between replicates) in the cells shown on the left. (D) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H NPCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H NPCs. (E) RNA-seq heatmap of PcG target genes in ESCs that are upregulated in WT NPCs but retained PRC1/2 and are repressed in Rnf2 WT/R70H NPCs. #1 and #2 are two different Rnf2 WT/R70H ESC clones. On the right, GO from each cluster. Deseq2; Wald test (FC > 4), q < 0.05. (F) Simplified genome browser screenshots of Ring1b WT , Ring1b R70H , H3K27me3, and H2AK119ub Cut&Run in WT and Rnf2 WT/R70H NPCs. Ring1b signal in WT NPCs and Ring1b WT and Ring1b R70H signals in Rnf2 WT/R70H NPCs are from merging average signals HA and FLAG Cut&Run two replicates from two clones. (G) Normalized signal of Ring1b WT and Ring1b R70H Cut&Run signals as in (F) around the transcription start site (TSS) of genes from (E). (H) Normalized signal of H3K27me3 and H2AK119ub Cut&Run signals (average from two replicates) as in (F) around the TSS of genes from (E). (I) Normalized ATAC-seq signal (average from two replicates) in WT and Rnf2 WT/R70H ESCs and NPCs around the TSS of genes from (E). See also .

    Techniques Used: Clone Assay, Generated, Liquid Chromatography with Mass Spectroscopy, Negative Control, RNA Sequencing

    (A) PCA from ATAC-seq from two independent biological replicates of WT and Rnf2 WT/R70H ESCs and NPCs. (B) Genome browser of ATAC-seq signal (average of two replicates) from WT and Rnf2 WT/R70H ESCs and NPCs. (C) RT-qPCR of pluripotency genes and NPC markers in WT and Rnf2 WT/R70H ESCs and NPCs. n = 3. #1 and #2 represent two clones of Rnf2 WT/R70H ESCs. *** p < 0.005, **** p < 0.001 by ANOVA test. (D) WB of Pax6 in WT and clone #1 of Rnf2 WT/R70H ESCs and NPCs. Vinculin served as a loading control. (E) ATAC-seq peaks reduced in Rnf2 WT/R70H NPCs and HOMER analysis. (F) Normalized expression of genes from (E) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (G) ATAC-seq specific peaks in Rnf2 WT/R70H NPCs and HOMER analysis. (H) Normalized expression of genes from (G) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (I) ATAC-seq signal in WT and Rnf2 WT/R70H NPCs at Sox2- or Sox3-occupied sites in WT NPCs. Sox2 and Sox3 ChIP from Bergsland et al. (J) Genome browser of ATAC-seq signal from WT and Rnf2 WT/R70H ESCs and NPCs as well as Ring1b WT and Ring1b R70H Cut&Run signal in WT and Rnf2 WT/R70H NPCs. (K) Normalized expression and GO of genes occupied by Ring1b WT and Ring1b R70H and compacted. *** p < 0.001. NS, not significant. Wilcox test. See also .
    Figure Legend Snippet: (A) PCA from ATAC-seq from two independent biological replicates of WT and Rnf2 WT/R70H ESCs and NPCs. (B) Genome browser of ATAC-seq signal (average of two replicates) from WT and Rnf2 WT/R70H ESCs and NPCs. (C) RT-qPCR of pluripotency genes and NPC markers in WT and Rnf2 WT/R70H ESCs and NPCs. n = 3. #1 and #2 represent two clones of Rnf2 WT/R70H ESCs. *** p < 0.005, **** p < 0.001 by ANOVA test. (D) WB of Pax6 in WT and clone #1 of Rnf2 WT/R70H ESCs and NPCs. Vinculin served as a loading control. (E) ATAC-seq peaks reduced in Rnf2 WT/R70H NPCs and HOMER analysis. (F) Normalized expression of genes from (E) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (G) ATAC-seq specific peaks in Rnf2 WT/R70H NPCs and HOMER analysis. (H) Normalized expression of genes from (G) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (I) ATAC-seq signal in WT and Rnf2 WT/R70H NPCs at Sox2- or Sox3-occupied sites in WT NPCs. Sox2 and Sox3 ChIP from Bergsland et al. (J) Genome browser of ATAC-seq signal from WT and Rnf2 WT/R70H ESCs and NPCs as well as Ring1b WT and Ring1b R70H Cut&Run signal in WT and Rnf2 WT/R70H NPCs. (K) Normalized expression and GO of genes occupied by Ring1b WT and Ring1b R70H and compacted. *** p < 0.001. NS, not significant. Wilcox test. See also .

    Techniques Used: Quantitative RT-PCR, Clone Assay, Control, Expressing



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    ring1b chip seq  (Cell Signaling Technology Inc)
    95
    Cell Signaling Technology Inc ring1b chip seq
    (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and <t>RING1B.</t> For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .
    Ring1b Chip Seq, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/ring1b chip seq/product/Cell Signaling Technology Inc
    Average 95 stars, based on 1 article reviews
    ring1b chip seq - by Bioz Stars, 2026-06
    95/100 stars
    		  Buy from Supplier

    Image Search Results


    (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and RING1B. For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .

    Journal: Molecular cell

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    doi: 10.1016/j.molcel.2026.01.023

    Figure Lengend Snippet: (A) RING1 and RNF2 variants (top). Reported variants in ClinVar and cancer-related somatic (COSMIC) mutations in RING1 and RNF2 genes (bottom). Metadome plots (middle) represent the level of predicted intolerance for amino acid change in RING1A and RING1B. For COSMIC, only positions of interest are shown as labels. Circle size represents the number of patients reported. (B) ColabFold predictions of RING1A and RING1B variants in altering interaction with PCGF proteins. (C) WBs of dKO-RING1A/B cells expressing HA-tagged WT and mutant RING1A and RING1B. Vinculin and histone H3 served as loading controls. n = 3 independent experimental replicates. (D) Possible mechanisms of deleterious variants that result in a decrease or absence of H2AK119ub. (E) Partial protein sequence alignments of a subset of RING1B homologs. The conserved RING1B-R70 residue corresponds to C. elegans R181 and is indicated by a star. Conserved zinc-coordinating residues, blue ; required for stabilizing the E2 enzyme-E3 ligase interaction in mammals, red ; required for binding to the nucleosome in mammals, green predicted to be important for the RING1B:PCGF4 interaction, magenta 47; and predicted to mediate β sheet interactions, cyan. * indicates identical residues, and : and. indicate residues with strongly and weakly similar physicochemical properties, respectively. The secondary structure of SPAT-3 and H. sapiens RING1B is shown below. (F) WBs of H2AK119ub in the indicated genotypes. The dilution factor is 1:3. The spat-3(mgw26) allele is a full deletion of the spat-3 coding region. Quantification of H2AK119ub and SPAT-3 isoform A is normalized to loading controls (histone H3/actin) and shown relative to the sample indicated by an asterisk. ND, not detectable. (G) WBs in dKO-RING1A/B cells stably expressing HA-RING1B WT or HA-RING1B R70H . Vinculin and histone H2A and H3 served as fractionation controls. n = 3 independent experimental replicates. (H) Normalized H3K27me3 Cut&Run signal (two independent experimental replicates) in cells treated with 1 μM of vehicle (DMSO) or GSK343 for 72 h. See also and .

    Article Snippet: Ring1b (ChIP-seq) , Cell Signaling Technology , Cat# 5694, RRID:AB_10705604.

    Techniques: Expressing, Mutagenesis, Sequencing, Residue, Binding Assay, Stable Transfection, Fractionation

    (A) Strategy to generate Rnf2 WT/R70H ESCs by homologous recombination. (B) DEG from WT and two clones of Rnf2 WT/R70H ESCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) GO of upregulated genes in Rnf2 WT/R70H ESCs. (D) Heatmaps of Ring1b, H3K27me3, and H2AK119ub ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (E) Strategy to generate HA and FLAG-tagged Rnf2 alleles by CRISPR-Cas9 in WT and Rnf2 WT/R70H ESCs. (F) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in WT and Rnf2 WT/R70H ESCs. Signal was generated from two biological replicates from two independent WT and Rnf2 WT/R70H clones. HA and FLAG Cut&Run signals were merged (average of 4 replicates) to avoid potential bias from the HA and FLAG antibodies’ efficiency. (G) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H ESCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as a negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H ESCs. (H) Heatmaps of Cbx7 and Pcgf2, Rybp, Mtf2/Pcl2, and Jarid2 ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (I) Genome browser screenshots of ChIP-seq from (H). (J) Mutabind2 scores upon the human RING1B R70H variant vs. full length and lacking their IDR, PCGF1-6 using AlphaFold and ColabFold. (K) Full-length Pcgf2 or lacking the IDR used in (L). (L) Anti-HA IPs followed by WBs against HA, Phc1, and Ring1b in WT and Rnf2 WT/R70H ESCs expressing HA-Pcgf2 WT or HA-Pcgf2 ΔIDR . (M) Model of PRC1/2 recruitment in Rnf2 WT/R70H ESCs. See also .

    Journal: Molecular cell

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    doi: 10.1016/j.molcel.2026.01.023

    Figure Lengend Snippet: (A) Strategy to generate Rnf2 WT/R70H ESCs by homologous recombination. (B) DEG from WT and two clones of Rnf2 WT/R70H ESCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) GO of upregulated genes in Rnf2 WT/R70H ESCs. (D) Heatmaps of Ring1b, H3K27me3, and H2AK119ub ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (E) Strategy to generate HA and FLAG-tagged Rnf2 alleles by CRISPR-Cas9 in WT and Rnf2 WT/R70H ESCs. (F) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in WT and Rnf2 WT/R70H ESCs. Signal was generated from two biological replicates from two independent WT and Rnf2 WT/R70H clones. HA and FLAG Cut&Run signals were merged (average of 4 replicates) to avoid potential bias from the HA and FLAG antibodies’ efficiency. (G) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H ESCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as a negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H ESCs. (H) Heatmaps of Cbx7 and Pcgf2, Rybp, Mtf2/Pcl2, and Jarid2 ChIP-seq (average signal of two independent experimental replicates) in WT and clone #1 of Rnf2 WT/R70H ESCs. (I) Genome browser screenshots of ChIP-seq from (H). (J) Mutabind2 scores upon the human RING1B R70H variant vs. full length and lacking their IDR, PCGF1-6 using AlphaFold and ColabFold. (K) Full-length Pcgf2 or lacking the IDR used in (L). (L) Anti-HA IPs followed by WBs against HA, Phc1, and Ring1b in WT and Rnf2 WT/R70H ESCs expressing HA-Pcgf2 WT or HA-Pcgf2 ΔIDR . (M) Model of PRC1/2 recruitment in Rnf2 WT/R70H ESCs. See also .

    Article Snippet: Ring1b (ChIP-seq) , Cell Signaling Technology , Cat# 5694, RRID:AB_10705604.

    Techniques: Homologous Recombination, Clone Assay, ChIP-sequencing, CRISPR, Generated, Liquid Chromatography with Mass Spectroscopy, Negative Control, Variant Assay, Expressing

    (A) Protocol to generate and differentiate NPCs. (B) Heatmap of DEG from ESCs vs. NPCs vs. differentiated NPCs (log 2 fold > 4, q < 0.01) and between WT and two clones of Rnf2 WT/R70H ESCs, NPCs, and 12-day-old differentiated NPCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) IFs of neuronal markers in WT and Rnf2 WT/R70H differentiated NPCs. n = 3 independent experimental replicates. Scale bar, 10 μm. (D) WBs of PRC1 subunits from WT ESCs and Pcgf2 KO and Rnf2 WT/R70H with and without Pcgf2 . (E) Pictures of NPCs derived from cells in (D). n = 4 independent experimental replicates. Scale bar, 400 μm. (F) Strategy to generate NPCs expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in PRC1 CKO cells. (G) WBs of HA and Ring1b in PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in the presence and absence of OHT treatment for 48 h. Vinculin was used as a loading control. (H) Pictures of NPCs derived from cells in (G) in a constant presence of OHT treatment. n = 2. Scale bar, 400 μm. (I) WBs of Nanog, Pax6, and H2AK119ub in NPCs derived from PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K . Vinculin was used as a loading control. (J) UMAP plots of scRNA-seq from 16-day-old WT and two clones of Rnf2 WT/R70H differentiated NPCs. n = 2 independent experimental replicates. (K) Cell type proportions of cells from (E). * p < 0.05. ANOVA test. (L) KEGG pathway of WT and two clones of Rnf2 WT/R70H NPCs. See also .

    Journal: Molecular cell

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    doi: 10.1016/j.molcel.2026.01.023

    Figure Lengend Snippet: (A) Protocol to generate and differentiate NPCs. (B) Heatmap of DEG from ESCs vs. NPCs vs. differentiated NPCs (log 2 fold > 4, q < 0.01) and between WT and two clones of Rnf2 WT/R70H ESCs, NPCs, and 12-day-old differentiated NPCs (log 2 fold > 2, q < 0.01). n = 2 independent experimental replicates. (C) IFs of neuronal markers in WT and Rnf2 WT/R70H differentiated NPCs. n = 3 independent experimental replicates. Scale bar, 10 μm. (D) WBs of PRC1 subunits from WT ESCs and Pcgf2 KO and Rnf2 WT/R70H with and without Pcgf2 . (E) Pictures of NPCs derived from cells in (D). n = 4 independent experimental replicates. Scale bar, 400 μm. (F) Strategy to generate NPCs expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in PRC1 CKO cells. (G) WBs of HA and Ring1b in PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K in the presence and absence of OHT treatment for 48 h. Vinculin was used as a loading control. (H) Pictures of NPCs derived from cells in (G) in a constant presence of OHT treatment. n = 2. Scale bar, 400 μm. (I) WBs of Nanog, Pax6, and H2AK119ub in NPCs derived from PRC1 CKO cells expressing Ring1b WT , Ring1b R70H , or Ring1b I53A/D56K . Vinculin was used as a loading control. (J) UMAP plots of scRNA-seq from 16-day-old WT and two clones of Rnf2 WT/R70H differentiated NPCs. n = 2 independent experimental replicates. (K) Cell type proportions of cells from (E). * p < 0.05. ANOVA test. (L) KEGG pathway of WT and two clones of Rnf2 WT/R70H NPCs. See also .

    Article Snippet: Ring1b (ChIP-seq) , Cell Signaling Technology , Cat# 5694, RRID:AB_10705604.

    Techniques: Clone Assay, Derivative Assay, Expressing, Control

    (A) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in either WT or Rnf2 WT/R70H NPCs in WT Ring1b peak regions. Two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (B) Normalized H3K27me3 and H2AK119ub Cut&Run signals in either WT or Rnf2 WT/R70H NPCs over all genome. Signal was generated from two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (C) Genome browser screenshots of HA, FLAG, H3K27me3, and H2AK119ub Cut&Run (average signal between replicates) in the cells shown on the left. (D) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H NPCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H NPCs. (E) RNA-seq heatmap of PcG target genes in ESCs that are upregulated in WT NPCs but retained PRC1/2 and are repressed in Rnf2 WT/R70H NPCs. #1 and #2 are two different Rnf2 WT/R70H ESC clones. On the right, GO from each cluster. Deseq2; Wald test (FC > 4), q < 0.05. (F) Simplified genome browser screenshots of Ring1b WT , Ring1b R70H , H3K27me3, and H2AK119ub Cut&Run in WT and Rnf2 WT/R70H NPCs. Ring1b signal in WT NPCs and Ring1b WT and Ring1b R70H signals in Rnf2 WT/R70H NPCs are from merging average signals HA and FLAG Cut&Run two replicates from two clones. (G) Normalized signal of Ring1b WT and Ring1b R70H Cut&Run signals as in (F) around the transcription start site (TSS) of genes from (E). (H) Normalized signal of H3K27me3 and H2AK119ub Cut&Run signals (average from two replicates) as in (F) around the TSS of genes from (E). (I) Normalized ATAC-seq signal (average from two replicates) in WT and Rnf2 WT/R70H ESCs and NPCs around the TSS of genes from (E). See also .

    Journal: Molecular cell

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    doi: 10.1016/j.molcel.2026.01.023

    Figure Lengend Snippet: (A) Normalized Ring1b WT and Ring1b R70H Cut&Run signals in either WT or Rnf2 WT/R70H NPCs in WT Ring1b peak regions. Two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (B) Normalized H3K27me3 and H2AK119ub Cut&Run signals in either WT or Rnf2 WT/R70H NPCs over all genome. Signal was generated from two biological replicates from two independent clones. Wilcox test. *** p < 0.001. (C) Genome browser screenshots of HA, FLAG, H3K27me3, and H2AK119ub Cut&Run (average signal between replicates) in the cells shown on the left. (D) Anti-FLAG IPs in Rnf2 HA-WT/FLAG-R70H and Rnf2 FLAG-WT/HA-R70H NPCs followed by LC-MS/MS in three independent experimental replicates. Results are normalized to IgG as negative control. Volcano plot shows proteins enriched or weakened in FLAG-Ring1b R70H compared with FLAG-Ring1b WT from Rnf2 WT/R70H NPCs. (E) RNA-seq heatmap of PcG target genes in ESCs that are upregulated in WT NPCs but retained PRC1/2 and are repressed in Rnf2 WT/R70H NPCs. #1 and #2 are two different Rnf2 WT/R70H ESC clones. On the right, GO from each cluster. Deseq2; Wald test (FC > 4), q < 0.05. (F) Simplified genome browser screenshots of Ring1b WT , Ring1b R70H , H3K27me3, and H2AK119ub Cut&Run in WT and Rnf2 WT/R70H NPCs. Ring1b signal in WT NPCs and Ring1b WT and Ring1b R70H signals in Rnf2 WT/R70H NPCs are from merging average signals HA and FLAG Cut&Run two replicates from two clones. (G) Normalized signal of Ring1b WT and Ring1b R70H Cut&Run signals as in (F) around the transcription start site (TSS) of genes from (E). (H) Normalized signal of H3K27me3 and H2AK119ub Cut&Run signals (average from two replicates) as in (F) around the TSS of genes from (E). (I) Normalized ATAC-seq signal (average from two replicates) in WT and Rnf2 WT/R70H ESCs and NPCs around the TSS of genes from (E). See also .

    Article Snippet: Ring1b (ChIP-seq) , Cell Signaling Technology , Cat# 5694, RRID:AB_10705604.

    Techniques: Clone Assay, Generated, Liquid Chromatography with Mass Spectroscopy, Negative Control, RNA Sequencing

    (A) PCA from ATAC-seq from two independent biological replicates of WT and Rnf2 WT/R70H ESCs and NPCs. (B) Genome browser of ATAC-seq signal (average of two replicates) from WT and Rnf2 WT/R70H ESCs and NPCs. (C) RT-qPCR of pluripotency genes and NPC markers in WT and Rnf2 WT/R70H ESCs and NPCs. n = 3. #1 and #2 represent two clones of Rnf2 WT/R70H ESCs. *** p < 0.005, **** p < 0.001 by ANOVA test. (D) WB of Pax6 in WT and clone #1 of Rnf2 WT/R70H ESCs and NPCs. Vinculin served as a loading control. (E) ATAC-seq peaks reduced in Rnf2 WT/R70H NPCs and HOMER analysis. (F) Normalized expression of genes from (E) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (G) ATAC-seq specific peaks in Rnf2 WT/R70H NPCs and HOMER analysis. (H) Normalized expression of genes from (G) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (I) ATAC-seq signal in WT and Rnf2 WT/R70H NPCs at Sox2- or Sox3-occupied sites in WT NPCs. Sox2 and Sox3 ChIP from Bergsland et al. (J) Genome browser of ATAC-seq signal from WT and Rnf2 WT/R70H ESCs and NPCs as well as Ring1b WT and Ring1b R70H Cut&Run signal in WT and Rnf2 WT/R70H NPCs. (K) Normalized expression and GO of genes occupied by Ring1b WT and Ring1b R70H and compacted. *** p < 0.001. NS, not significant. Wilcox test. See also .

    Journal: Molecular cell

    Article Title: Unbalanced chromatin binding of Polycomb complexes drives neurodevelopmental disorders

    doi: 10.1016/j.molcel.2026.01.023

    Figure Lengend Snippet: (A) PCA from ATAC-seq from two independent biological replicates of WT and Rnf2 WT/R70H ESCs and NPCs. (B) Genome browser of ATAC-seq signal (average of two replicates) from WT and Rnf2 WT/R70H ESCs and NPCs. (C) RT-qPCR of pluripotency genes and NPC markers in WT and Rnf2 WT/R70H ESCs and NPCs. n = 3. #1 and #2 represent two clones of Rnf2 WT/R70H ESCs. *** p < 0.005, **** p < 0.001 by ANOVA test. (D) WB of Pax6 in WT and clone #1 of Rnf2 WT/R70H ESCs and NPCs. Vinculin served as a loading control. (E) ATAC-seq peaks reduced in Rnf2 WT/R70H NPCs and HOMER analysis. (F) Normalized expression of genes from (E) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (G) ATAC-seq specific peaks in Rnf2 WT/R70H NPCs and HOMER analysis. (H) Normalized expression of genes from (G) in WT and clones #1 and #2 of Rnf2 WT/R70H NPCs. *** p < 0.001. NS, not significant. Wilcox test. (I) ATAC-seq signal in WT and Rnf2 WT/R70H NPCs at Sox2- or Sox3-occupied sites in WT NPCs. Sox2 and Sox3 ChIP from Bergsland et al. (J) Genome browser of ATAC-seq signal from WT and Rnf2 WT/R70H ESCs and NPCs as well as Ring1b WT and Ring1b R70H Cut&Run signal in WT and Rnf2 WT/R70H NPCs. (K) Normalized expression and GO of genes occupied by Ring1b WT and Ring1b R70H and compacted. *** p < 0.001. NS, not significant. Wilcox test. See also .

    Article Snippet: Ring1b (ChIP-seq) , Cell Signaling Technology , Cat# 5694, RRID:AB_10705604.

    Techniques: Quantitative RT-PCR, Clone Assay, Control, Expressing