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( A ) Schematic illustrating annotation of cis -regulatory elements in RPCs and photoreceptor precursors by integration of scATAC-Seq and CUT&RUN 13LGS and mouse datasets. ( B ) Heatmaps show annotated accessible regulatory elements in both 13LGS and mouse. Promoters, activated enhancers (AEs), and poised enhancers (PEs), which are associated with histone markers associated with genes in clusters C2 and C3, which are selectively active in 13LGS RPCs and/or photoreceptor precursors. Shading <t>indicates</t> <t>CUT&TAG</t> signal for the corresponding histone modification within 2 kb of the scATAC-Seq peak center. Bar plots displaying the number of each category of regulatory element in each species that are conserved or species-specific. ( C ) Dot plots showing the enrichment of binding sites for Otx2 and Neurod1, TFs which are broadly expressed in both neurogenic RPC and photoreceptor precursors, which are enriched in both conserved cis -regulatory elements in both species. ( D ) Bar plots showing the number of conserved and species-specific enhancers per transcription start site (TSS) in four cone-promoting genes between 13LGS and mouse. ( E ) The gene regulatory networks (GRNs) regulating Thrb expression in 13LGS and mouse late N. RPCs. ( F ) An example of a Thrb-related regulon and its corresponding scATAC-Seq and CUT&RUN tracks. The arrow indicates the consistent regulatory relationships between GRN prediction and experimental validations. ( G ) The epigenetic model of cone specification in 13LGS and mouse.
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h3k27me3 antibody  (EpiCypher)
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( A ) Schematic illustrating annotation of cis -regulatory elements in RPCs and photoreceptor precursors by integration of scATAC-Seq and CUT&RUN 13LGS and mouse datasets. ( B ) Heatmaps show annotated accessible regulatory elements in both 13LGS and mouse. Promoters, activated enhancers (AEs), and poised enhancers (PEs), which are associated with histone markers associated with genes in clusters C2 and C3, which are selectively active in 13LGS RPCs and/or photoreceptor precursors. Shading <t>indicates</t> <t>CUT&TAG</t> signal for the corresponding histone modification within 2 kb of the scATAC-Seq peak center. Bar plots displaying the number of each category of regulatory element in each species that are conserved or species-specific. ( C ) Dot plots showing the enrichment of binding sites for Otx2 and Neurod1, TFs which are broadly expressed in both neurogenic RPC and photoreceptor precursors, which are enriched in both conserved cis -regulatory elements in both species. ( D ) Bar plots showing the number of conserved and species-specific enhancers per transcription start site (TSS) in four cone-promoting genes between 13LGS and mouse. ( E ) The gene regulatory networks (GRNs) regulating Thrb expression in 13LGS and mouse late N. RPCs. ( F ) An example of a Thrb-related regulon and its corresponding scATAC-Seq and CUT&RUN tracks. The arrow indicates the consistent regulatory relationships between GRN prediction and experimental validations. ( G ) The epigenetic model of cone specification in 13LGS and mouse.
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snap certified  (EpiCypher)
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( A ) Schematic illustrating annotation of cis -regulatory elements in RPCs and photoreceptor precursors by integration of scATAC-Seq and CUT&RUN 13LGS and mouse datasets. ( B ) Heatmaps show annotated accessible regulatory elements in both 13LGS and mouse. Promoters, activated enhancers (AEs), and poised enhancers (PEs), which are associated with histone markers associated with genes in clusters C2 and C3, which are selectively active in 13LGS RPCs and/or photoreceptor precursors. Shading <t>indicates</t> <t>CUT&TAG</t> signal for the corresponding histone modification within 2 kb of the scATAC-Seq peak center. Bar plots displaying the number of each category of regulatory element in each species that are conserved or species-specific. ( C ) Dot plots showing the enrichment of binding sites for Otx2 and Neurod1, TFs which are broadly expressed in both neurogenic RPC and photoreceptor precursors, which are enriched in both conserved cis -regulatory elements in both species. ( D ) Bar plots showing the number of conserved and species-specific enhancers per transcription start site (TSS) in four cone-promoting genes between 13LGS and mouse. ( E ) The gene regulatory networks (GRNs) regulating Thrb expression in 13LGS and mouse late N. RPCs. ( F ) An example of a Thrb-related regulon and its corresponding scATAC-Seq and CUT&RUN tracks. The arrow indicates the consistent regulatory relationships between GRN prediction and experimental validations. ( G ) The epigenetic model of cone specification in 13LGS and mouse.
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UBR5 promoted the degradation and polyubiquitination of Snail. (A) UBR5 promoted the proteasomal degradation of Snail. HEK293T cells were transfected with Snail-Flag, Snail 6SA-Flag, UBR5-Myc, GFP, or empty vector and treated with DMSO, chloroquine, MG132, or CT99021 as indicated. The expression of Snail and GFP was assessed by western blotting. (B) UBR5 degraded Snail protein in a concentration-dependent manner. HEK293T cells were transfected with Snail-Flag, GFP, or in combination with different concentrations of wild-type and truncated UBR5-Myc for 48 h. Cell lysates were immunoblotted with anti-Snail antibodies. (C) UBR5 promoted K48 polyubiquitinated chain generation of Snail protein. In cellular ubiquitination assays, UBR5-Myc were co-transfected with Snail-Flag plasmids or with HA-Ub-K63 and HA-Ub-K48 plasmids. Western blotting was performed on cell lysates immunoprecipitated with an anti-Flag antibody, followed by the detection of polyubiquitination levels using an anti-Ub antibody. (D) UBR5 accelerated the Snail protein turnover through the HECT domain. HEK293T cells were transfected with corresponding plasmids. Cells were treated with cycloheximide (CHX) and harvested at indicated time points for immunoblotting with anti-Snail or anti-GFP antibody. The graph shows the quantification of Snail protein levels (based on the band intensity from the gels) normalized to those of GFP over the time course. Snail protein expression at the 0 h time point of treatment with CHX was set as 100 %. Experiments were performed in triplicate, and a representative experiment is presented.

Journal: Genes & Diseases

Article Title: UBR5 regulates the progression of colorectal cancer cells through Snail-induced epithelial–mesenchymal transition

doi: 10.1016/j.gendis.2025.101679

Figure Lengend Snippet: UBR5 promoted the degradation and polyubiquitination of Snail. (A) UBR5 promoted the proteasomal degradation of Snail. HEK293T cells were transfected with Snail-Flag, Snail 6SA-Flag, UBR5-Myc, GFP, or empty vector and treated with DMSO, chloroquine, MG132, or CT99021 as indicated. The expression of Snail and GFP was assessed by western blotting. (B) UBR5 degraded Snail protein in a concentration-dependent manner. HEK293T cells were transfected with Snail-Flag, GFP, or in combination with different concentrations of wild-type and truncated UBR5-Myc for 48 h. Cell lysates were immunoblotted with anti-Snail antibodies. (C) UBR5 promoted K48 polyubiquitinated chain generation of Snail protein. In cellular ubiquitination assays, UBR5-Myc were co-transfected with Snail-Flag plasmids or with HA-Ub-K63 and HA-Ub-K48 plasmids. Western blotting was performed on cell lysates immunoprecipitated with an anti-Flag antibody, followed by the detection of polyubiquitination levels using an anti-Ub antibody. (D) UBR5 accelerated the Snail protein turnover through the HECT domain. HEK293T cells were transfected with corresponding plasmids. Cells were treated with cycloheximide (CHX) and harvested at indicated time points for immunoblotting with anti-Snail or anti-GFP antibody. The graph shows the quantification of Snail protein levels (based on the band intensity from the gels) normalized to those of GFP over the time course. Snail protein expression at the 0 h time point of treatment with CHX was set as 100 %. Experiments were performed in triplicate, and a representative experiment is presented.

Article Snippet: The membranes were probed with primary antibodies, including Flag (Proteintech, Wuhan, China, 66008-4-Ig), Myc (Proteintech, 60003-2-Ig), UBR5 (Proteintech, 66937-1-Ig), Snail (Santa Cruz Biotechnology, Oregon, USA, 166476), phosphorylated Snail (Biodragon, BD-PP0568), Slug (Santa Cruz Biotechnology, 271977), E-cadherin (Proteintech, 20874-1-AP), N-cadherin (BD Transduction Laboratories, Franklin Lakes, USA, 610920), GSK3β (Proteintech, 82061-1-RR), pGSK3β (Proteintech, 67558-1-Ig), green fluorescent protein (GFP; Proteintech, 66002-1-Ig), and glyceraldehyde-3-phosphate dehydrogenase (GAPDH; Bioss, Woburn, USA, 0978M).

Techniques: Transfection, Plasmid Preparation, Expressing, Western Blot, Concentration Assay, Ubiquitin Proteomics, Immunoprecipitation

UBR5 C2768S mutation abrogated the interaction with Snail. (A) His pull-down assays showed the abolished interactions between Snail and the UBR5 C2768S. A schematic representation of the UBR5 wild-type and C2768S mutation. (B) Co-immunoprecipitation assay showed that the interaction between the Snail and the UBR5 C2768S mutation was eliminated. HEK293T cells were transfected with UBR5-Myc, UBR5 C2768S-Myc, and Snail-Flag as indicated. Cell lysates were immunoprecipitated with either anti-Myc or anti-Flag antibodies and immunoblotted with anti-Snail and anti-UBR5 antibodies. (C) UBR5 C2768S abolished the UBR5-mediated degradation of Snail. HEK293T cells were transfected with Snail-Flag, UBR5-Myc, and UBR5 C2768S-Myc as indicated. Cell lysates were subjected to western blotting analysis with anti-Snail and anti-GFP antibodies. (D) UBR5 C2768S did not accelerate Snail protein turnover. HEK293T cells were transfected with Snail-Flag, UBR5-Myc, and UBR5 C2768S-Myc and treated with cycloheximide (CHX) as indicated. Cell lysates were subjected to western blotting analysis with anti-Snail and anti-GFP antibodi.

Journal: Genes & Diseases

Article Title: UBR5 regulates the progression of colorectal cancer cells through Snail-induced epithelial–mesenchymal transition

doi: 10.1016/j.gendis.2025.101679

Figure Lengend Snippet: UBR5 C2768S mutation abrogated the interaction with Snail. (A) His pull-down assays showed the abolished interactions between Snail and the UBR5 C2768S. A schematic representation of the UBR5 wild-type and C2768S mutation. (B) Co-immunoprecipitation assay showed that the interaction between the Snail and the UBR5 C2768S mutation was eliminated. HEK293T cells were transfected with UBR5-Myc, UBR5 C2768S-Myc, and Snail-Flag as indicated. Cell lysates were immunoprecipitated with either anti-Myc or anti-Flag antibodies and immunoblotted with anti-Snail and anti-UBR5 antibodies. (C) UBR5 C2768S abolished the UBR5-mediated degradation of Snail. HEK293T cells were transfected with Snail-Flag, UBR5-Myc, and UBR5 C2768S-Myc as indicated. Cell lysates were subjected to western blotting analysis with anti-Snail and anti-GFP antibodies. (D) UBR5 C2768S did not accelerate Snail protein turnover. HEK293T cells were transfected with Snail-Flag, UBR5-Myc, and UBR5 C2768S-Myc and treated with cycloheximide (CHX) as indicated. Cell lysates were subjected to western blotting analysis with anti-Snail and anti-GFP antibodi.

Article Snippet: The membranes were probed with primary antibodies, including Flag (Proteintech, Wuhan, China, 66008-4-Ig), Myc (Proteintech, 60003-2-Ig), UBR5 (Proteintech, 66937-1-Ig), Snail (Santa Cruz Biotechnology, Oregon, USA, 166476), phosphorylated Snail (Biodragon, BD-PP0568), Slug (Santa Cruz Biotechnology, 271977), E-cadherin (Proteintech, 20874-1-AP), N-cadherin (BD Transduction Laboratories, Franklin Lakes, USA, 610920), GSK3β (Proteintech, 82061-1-RR), pGSK3β (Proteintech, 67558-1-Ig), green fluorescent protein (GFP; Proteintech, 66002-1-Ig), and glyceraldehyde-3-phosphate dehydrogenase (GAPDH; Bioss, Woburn, USA, 0978M).

Techniques: Mutagenesis, Co-Immunoprecipitation Assay, Transfection, Immunoprecipitation, Western Blot

( A ) Schematic illustrating annotation of cis -regulatory elements in RPCs and photoreceptor precursors by integration of scATAC-Seq and CUT&RUN 13LGS and mouse datasets. ( B ) Heatmaps show annotated accessible regulatory elements in both 13LGS and mouse. Promoters, activated enhancers (AEs), and poised enhancers (PEs), which are associated with histone markers associated with genes in clusters C2 and C3, which are selectively active in 13LGS RPCs and/or photoreceptor precursors. Shading indicates CUT&TAG signal for the corresponding histone modification within 2 kb of the scATAC-Seq peak center. Bar plots displaying the number of each category of regulatory element in each species that are conserved or species-specific. ( C ) Dot plots showing the enrichment of binding sites for Otx2 and Neurod1, TFs which are broadly expressed in both neurogenic RPC and photoreceptor precursors, which are enriched in both conserved cis -regulatory elements in both species. ( D ) Bar plots showing the number of conserved and species-specific enhancers per transcription start site (TSS) in four cone-promoting genes between 13LGS and mouse. ( E ) The gene regulatory networks (GRNs) regulating Thrb expression in 13LGS and mouse late N. RPCs. ( F ) An example of a Thrb-related regulon and its corresponding scATAC-Seq and CUT&RUN tracks. The arrow indicates the consistent regulatory relationships between GRN prediction and experimental validations. ( G ) The epigenetic model of cone specification in 13LGS and mouse.

Journal: eLife

Article Title: Heterochronic transcription factor expression drives cone-dominant retina development in 13-lined ground squirrels

doi: 10.7554/eLife.108485

Figure Lengend Snippet: ( A ) Schematic illustrating annotation of cis -regulatory elements in RPCs and photoreceptor precursors by integration of scATAC-Seq and CUT&RUN 13LGS and mouse datasets. ( B ) Heatmaps show annotated accessible regulatory elements in both 13LGS and mouse. Promoters, activated enhancers (AEs), and poised enhancers (PEs), which are associated with histone markers associated with genes in clusters C2 and C3, which are selectively active in 13LGS RPCs and/or photoreceptor precursors. Shading indicates CUT&TAG signal for the corresponding histone modification within 2 kb of the scATAC-Seq peak center. Bar plots displaying the number of each category of regulatory element in each species that are conserved or species-specific. ( C ) Dot plots showing the enrichment of binding sites for Otx2 and Neurod1, TFs which are broadly expressed in both neurogenic RPC and photoreceptor precursors, which are enriched in both conserved cis -regulatory elements in both species. ( D ) Bar plots showing the number of conserved and species-specific enhancers per transcription start site (TSS) in four cone-promoting genes between 13LGS and mouse. ( E ) The gene regulatory networks (GRNs) regulating Thrb expression in 13LGS and mouse late N. RPCs. ( F ) An example of a Thrb-related regulon and its corresponding scATAC-Seq and CUT&RUN tracks. The arrow indicates the consistent regulatory relationships between GRN prediction and experimental validations. ( G ) The epigenetic model of cone specification in 13LGS and mouse.

Article Snippet: Antibody , H3K27ac Antibody, SNAP-Certified for CUT&RUN and CUT&Tag , EpiCypher , 13-0059 , 0.5 μg/reaction.

Techniques: Modification, Binding Assay, Expressing