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primary antibodies targeting phf10  (GeneTex)

 
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    GeneTex primary antibodies targeting phf10
    Primary Antibodies Targeting Phf10, supplied by GeneTex, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/primary antibodies targeting phf10/product/GeneTex
    Average 90 stars, based on 1 article reviews
    primary antibodies targeting phf10 - by Bioz Stars, 2026-04
    90/100 stars

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    primary antibodies targeting phf10  (GeneTex)
    90
    GeneTex primary antibodies targeting phf10
    Primary Antibodies Targeting Phf10, supplied by GeneTex, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/primary antibodies targeting phf10/product/GeneTex
    Average 90 stars, based on 1 article reviews
    primary antibodies targeting phf10 - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier
    primary antibody targeting phf10 gtx116314  (GeneTex)
    90
    GeneTex primary antibody targeting phf10 gtx116314
    A Comparison of <t>PHF10</t> IHC scores across various differentiation levels of GC ( n = 190). B A histogram illustration of PHF10 positivity in normal gastric mucosa, chronic gastritis, intestinal metaplasia and GC tissues. C Results from GO analysis. Genes of the epidermis development and epidermal cell differentiation were mostly enriched. D Results from KEGG enrichment analysis. Genes of the protein digestion, gastric acid secretion and IL-17 signaling pathway were enriched. E GSEA analysis revealed dysregulated pathways associated with PHF10 expression. The GSEA analysis of GO between the high and low PHF10 expression samples revealed significant difference in the enrichment of cell differentiation pathways, while the GSEA analysis of KEGG pathway enrichment showed MAPK signaling pathway activation. F WB validation of PHF10 knockdown SGC7901, PHF10 overexpression MKN28 and GES-1 cells. G QRT-PCR detection of gastric epithelial maturation and differentiation markers following PHF10 knockdown in SGC7901 cells. H The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in SGC7901-shPHF10 cells. I The expression patterns of markers for gastric epithelial maturation and differentiation following the upregulation of PHF10 in MKN28 cells. J The expression levels of CD44, CE133, Villin 1 and SOX9 in MKN28-PHF10 cells. K The expression of markers for gastric epithelial maturation and differentiation in GES-PHF10 cells. L The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in GES-1 cells overexpressing shPHF10. * P < 0.05.
    Primary Antibody Targeting Phf10 Gtx116314, supplied by GeneTex, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/primary antibody targeting phf10 gtx116314/product/GeneTex
    Average 90 stars, based on 1 article reviews
    primary antibody targeting phf10 gtx116314 - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

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    A Comparison of PHF10 IHC scores across various differentiation levels of GC ( n = 190). B A histogram illustration of PHF10 positivity in normal gastric mucosa, chronic gastritis, intestinal metaplasia and GC tissues. C Results from GO analysis. Genes of the epidermis development and epidermal cell differentiation were mostly enriched. D Results from KEGG enrichment analysis. Genes of the protein digestion, gastric acid secretion and IL-17 signaling pathway were enriched. E GSEA analysis revealed dysregulated pathways associated with PHF10 expression. The GSEA analysis of GO between the high and low PHF10 expression samples revealed significant difference in the enrichment of cell differentiation pathways, while the GSEA analysis of KEGG pathway enrichment showed MAPK signaling pathway activation. F WB validation of PHF10 knockdown SGC7901, PHF10 overexpression MKN28 and GES-1 cells. G QRT-PCR detection of gastric epithelial maturation and differentiation markers following PHF10 knockdown in SGC7901 cells. H The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in SGC7901-shPHF10 cells. I The expression patterns of markers for gastric epithelial maturation and differentiation following the upregulation of PHF10 in MKN28 cells. J The expression levels of CD44, CE133, Villin 1 and SOX9 in MKN28-PHF10 cells. K The expression of markers for gastric epithelial maturation and differentiation in GES-PHF10 cells. L The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in GES-1 cells overexpressing shPHF10. * P < 0.05.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A Comparison of PHF10 IHC scores across various differentiation levels of GC ( n = 190). B A histogram illustration of PHF10 positivity in normal gastric mucosa, chronic gastritis, intestinal metaplasia and GC tissues. C Results from GO analysis. Genes of the epidermis development and epidermal cell differentiation were mostly enriched. D Results from KEGG enrichment analysis. Genes of the protein digestion, gastric acid secretion and IL-17 signaling pathway were enriched. E GSEA analysis revealed dysregulated pathways associated with PHF10 expression. The GSEA analysis of GO between the high and low PHF10 expression samples revealed significant difference in the enrichment of cell differentiation pathways, while the GSEA analysis of KEGG pathway enrichment showed MAPK signaling pathway activation. F WB validation of PHF10 knockdown SGC7901, PHF10 overexpression MKN28 and GES-1 cells. G QRT-PCR detection of gastric epithelial maturation and differentiation markers following PHF10 knockdown in SGC7901 cells. H The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in SGC7901-shPHF10 cells. I The expression patterns of markers for gastric epithelial maturation and differentiation following the upregulation of PHF10 in MKN28 cells. J The expression levels of CD44, CE133, Villin 1 and SOX9 in MKN28-PHF10 cells. K The expression of markers for gastric epithelial maturation and differentiation in GES-PHF10 cells. L The expression levels of gastric epithelial stem progenitor cells and GC stem cell markers in GES-1 cells overexpressing shPHF10. * P < 0.05.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Comparison, Cell Differentiation, Expressing, Activation Assay, Biomarker Discovery, Knockdown, Over Expression, Quantitative RT-PCR

    A SGC7901 cells exhibited numerous microvilli on the cell surface and pits on the nuclear membrane (×15,000). B SGC7901 cells manifested a significant presence of rough endoplasmic reticulum in the cytoplasm (white arrow), limited mitochondrial cristae (black arrow) (×60,000). C SGC7901-shPHF10 cells exhibited a decrease in microvilli and pits on the nuclear membrane (×10,000). D SGC7901-shPHF10 cells presented a notable quantity of lysosomes with high electron density (white arrow) (×60,000). E The cytoplasm of SGC7901-shPHF10 cell exhibited an increase in mitochondrial cristae (white arrow) (×60,000). F Cells with PHF10 knockdown displayed alterations in the Golgi complex (white arrow) (×30,000). G Cytoplasmic vacuolization was observed in SGC7901-shPHF10 cells (×30,000). H Apoptotic cells were identified in SGC7901-shPHF10 cells (×15,000). I – K The sphere formation capacity of SGC-7901, MKN28 and GES-1 cells manipulated by PHF10 was evaluated by measuring the number and diameter of primary and secondary spheres separately. * P < 0.05; ** P < 0.01; *** P < 0.001.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A SGC7901 cells exhibited numerous microvilli on the cell surface and pits on the nuclear membrane (×15,000). B SGC7901 cells manifested a significant presence of rough endoplasmic reticulum in the cytoplasm (white arrow), limited mitochondrial cristae (black arrow) (×60,000). C SGC7901-shPHF10 cells exhibited a decrease in microvilli and pits on the nuclear membrane (×10,000). D SGC7901-shPHF10 cells presented a notable quantity of lysosomes with high electron density (white arrow) (×60,000). E The cytoplasm of SGC7901-shPHF10 cell exhibited an increase in mitochondrial cristae (white arrow) (×60,000). F Cells with PHF10 knockdown displayed alterations in the Golgi complex (white arrow) (×30,000). G Cytoplasmic vacuolization was observed in SGC7901-shPHF10 cells (×30,000). H Apoptotic cells were identified in SGC7901-shPHF10 cells (×15,000). I – K The sphere formation capacity of SGC-7901, MKN28 and GES-1 cells manipulated by PHF10 was evaluated by measuring the number and diameter of primary and secondary spheres separately. * P < 0.05; ** P < 0.01; *** P < 0.001.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Membrane, Knockdown

    A The expression of differentiation markers in mice xenografts was compared between the SGC7901-shPHF10 and control groups. B The levels of various markers were assessed in the MKN28-PHF10 and control groups using qRT-PCR. C The morphology of xenografts in the SGC7901-NC and SGC7901-shPHF10 groups was examined through HE staining (×200, ×400). Nuclei were represented in blue, while cytoplasm was represented in red. Tumor cells in the SGC7901-shPHF10 group exhibited a more organized arrangement and formed gastric gland tubular structures compared to those in the SGC7901-NC group. D The morphology of xenografts in the MKN28-vector and MKN28-PHF10 groups was examined (×200, ×400). Nuclei were represented in blue, while cytoplasm was represented in red. Tumor cells in xenografts formed by MKN28-PHF10 and MKN28-vector exhibited diffuse and irregular distribution, lacking the formation of glandular-like structures. E – G IHC staining was performed on SGC7901-shPHF10 cells within the glandular tubular structure of SGC7901-shPHF10 xenografts (×200). Nuclei were represented in blue, ATP4B was represented in yellow in panel ( E ), PGC was represented in yellow in panel ( F ), and panel ( G ) showed negative expression of Adiponectin. H The expression level of E2F1 mRNA in normal and GC tissues. I The co-expression of E2F1 and PHF10 in GC tissue. J The analysis of PHF10 and E2F1 mRNA levels in SGC7901 cells following knockdown of E2F1 or PHF10. K The examination of PHF10 and E2F1 mRNA levels in MKN28 cells overexpressing E2F1 or PHF10. L The examination of PHF10 and E2F1 protein levels in SGC7901 cells after knockdown of E2F1 or PHF10. M The assessment of PHF10 and E2F1 protein levels in MKN28 cells following overexpression of E2F1 or PHF10. N , O ChIP-qPCR experiments in SGC7901 ( N ) and MKN28-E2F1 ( O ) cells. P Dual luciferase reporter assay in MKN28-E2F1 and MKN28-E2F1 vector cells. * P < 0.05; ** P < 0.01; *** P < 0.001.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A The expression of differentiation markers in mice xenografts was compared between the SGC7901-shPHF10 and control groups. B The levels of various markers were assessed in the MKN28-PHF10 and control groups using qRT-PCR. C The morphology of xenografts in the SGC7901-NC and SGC7901-shPHF10 groups was examined through HE staining (×200, ×400). Nuclei were represented in blue, while cytoplasm was represented in red. Tumor cells in the SGC7901-shPHF10 group exhibited a more organized arrangement and formed gastric gland tubular structures compared to those in the SGC7901-NC group. D The morphology of xenografts in the MKN28-vector and MKN28-PHF10 groups was examined (×200, ×400). Nuclei were represented in blue, while cytoplasm was represented in red. Tumor cells in xenografts formed by MKN28-PHF10 and MKN28-vector exhibited diffuse and irregular distribution, lacking the formation of glandular-like structures. E – G IHC staining was performed on SGC7901-shPHF10 cells within the glandular tubular structure of SGC7901-shPHF10 xenografts (×200). Nuclei were represented in blue, ATP4B was represented in yellow in panel ( E ), PGC was represented in yellow in panel ( F ), and panel ( G ) showed negative expression of Adiponectin. H The expression level of E2F1 mRNA in normal and GC tissues. I The co-expression of E2F1 and PHF10 in GC tissue. J The analysis of PHF10 and E2F1 mRNA levels in SGC7901 cells following knockdown of E2F1 or PHF10. K The examination of PHF10 and E2F1 mRNA levels in MKN28 cells overexpressing E2F1 or PHF10. L The examination of PHF10 and E2F1 protein levels in SGC7901 cells after knockdown of E2F1 or PHF10. M The assessment of PHF10 and E2F1 protein levels in MKN28 cells following overexpression of E2F1 or PHF10. N , O ChIP-qPCR experiments in SGC7901 ( N ) and MKN28-E2F1 ( O ) cells. P Dual luciferase reporter assay in MKN28-E2F1 and MKN28-E2F1 vector cells. * P < 0.05; ** P < 0.01; *** P < 0.001.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Expressing, Control, Quantitative RT-PCR, Staining, Plasmid Preparation, Immunohistochemistry, Knockdown, Over Expression, ChIP-qPCR, Luciferase, Reporter Assay

    A , B The nuclear co-localization of PHF10 and BRG1 was observed in SGC7901 cells ( A ) and MKN28 cells ( B ). C – F Co-IP assays were performed using antibodies against PHF10 ( C ), BRG1 ( D ), BAF155 ( E ) and SNF5 ( F ) in SGC7901-shPHF10 and control cells. G – J Co-IP experiments for PHF10 ( G ), BRG1 ( H ), BAF155 ( I ) and SNF5 ( J ) were conducted in MKN28-PHF10 and control cells.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A , B The nuclear co-localization of PHF10 and BRG1 was observed in SGC7901 cells ( A ) and MKN28 cells ( B ). C – F Co-IP assays were performed using antibodies against PHF10 ( C ), BRG1 ( D ), BAF155 ( E ) and SNF5 ( F ) in SGC7901-shPHF10 and control cells. G – J Co-IP experiments for PHF10 ( G ), BRG1 ( H ), BAF155 ( I ) and SNF5 ( J ) were conducted in MKN28-PHF10 and control cells.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Co-Immunoprecipitation Assay, Control

    A – C Detection of E2F1, PHF10 and DUSP5 expression in SGC7901 cells by qRT-PCR. D – F The mRNA levels of E2F1, PHF10 and DUSP5 in MKN28 cells were also assessed. G , H WB analysis was performed to determine the levels of DUSP5, ERK1/2 and pERK1/2 levels in SGC7901 cells. I The levels of E2F1, PHF10, DUSP5, ERK1/2 and pERK1/2 levels in MKN28 cells were evaluated. J ChIP-qPCR was carried out using antibodies against PHF10, BRG1, BAF155 and SNF5 in SGC7901 cells, with IgG antibodies serving as a negative control. The purified DNA after precipitation was subsequently amplified using the same set of primers for PCR analysis. K The promoter region of DUSP5 was amplified in MKN28-PHF10 cells using antibodies against PHF10, BRG1, BAF155 and SNF5. L A dual luciferase reporter assay was conducted in both MKN28-PHF10-Vector and MKN28-PHF10 cells.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A – C Detection of E2F1, PHF10 and DUSP5 expression in SGC7901 cells by qRT-PCR. D – F The mRNA levels of E2F1, PHF10 and DUSP5 in MKN28 cells were also assessed. G , H WB analysis was performed to determine the levels of DUSP5, ERK1/2 and pERK1/2 levels in SGC7901 cells. I The levels of E2F1, PHF10, DUSP5, ERK1/2 and pERK1/2 levels in MKN28 cells were evaluated. J ChIP-qPCR was carried out using antibodies against PHF10, BRG1, BAF155 and SNF5 in SGC7901 cells, with IgG antibodies serving as a negative control. The purified DNA after precipitation was subsequently amplified using the same set of primers for PCR analysis. K The promoter region of DUSP5 was amplified in MKN28-PHF10 cells using antibodies against PHF10, BRG1, BAF155 and SNF5. L A dual luciferase reporter assay was conducted in both MKN28-PHF10-Vector and MKN28-PHF10 cells.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Expressing, Quantitative RT-PCR, ChIP-qPCR, Negative Control, Purification, Amplification, Luciferase, Reporter Assay, Plasmid Preparation

    A The relationship between E2F1 or PHF10 and DUSP5, was examined in 30 pairs of GC tissues through qRT-PCR analysis. B IHC staining was performed for E2F1, PHF10 and DUSP5 in two patient samples. Patient 1 exhibited poorly differentiated and diffuse GC, while patient 2 had well differentiated and intestinal GC. C WB analysis was conducted to measure the levels of E2F1, PHF10, DUSP5 and pERK1/2 in the aforementioned patient samples. D The expression levels of gastric epithelium differentiation markers (ATP4B, PG I, GAST, TFF1, CD44 and SOX9) were detected by qRT-PCR in SGC7901 cells. E The mRNA levels of gastric epithelium differentiation markers were assessed in MKN28 cells. F , G Sphere formation was quantified in SGC7901 cells ( F ) and MKN28 cells ( G ). H A schematic illustrating the mechanism of PHF10-mediated dysdifferentiation in GC cells.

    Journal: Cancer Gene Therapy

    Article Title: PHF10 inhibits gastric epithelium differentiation and induces gastric cancer carcinogenesis

    doi: 10.1038/s41417-024-00820-5

    Figure Lengend Snippet: A The relationship between E2F1 or PHF10 and DUSP5, was examined in 30 pairs of GC tissues through qRT-PCR analysis. B IHC staining was performed for E2F1, PHF10 and DUSP5 in two patient samples. Patient 1 exhibited poorly differentiated and diffuse GC, while patient 2 had well differentiated and intestinal GC. C WB analysis was conducted to measure the levels of E2F1, PHF10, DUSP5 and pERK1/2 in the aforementioned patient samples. D The expression levels of gastric epithelium differentiation markers (ATP4B, PG I, GAST, TFF1, CD44 and SOX9) were detected by qRT-PCR in SGC7901 cells. E The mRNA levels of gastric epithelium differentiation markers were assessed in MKN28 cells. F , G Sphere formation was quantified in SGC7901 cells ( F ) and MKN28 cells ( G ). H A schematic illustrating the mechanism of PHF10-mediated dysdifferentiation in GC cells.

    Article Snippet: IHC was conducted in adherence to established procedures, utilizing primary antibodies targeting PHF10 (GeneTex, GTX116314), E2F1 (Santa Cruz, sc-193), DUSP5 (Santa Cruz, sc-393801), ATP4B (Santa Cruz, sc-376393), PGC (Santa Cruz, sc-5815), and a biotinylated swine anti-rabbit secondary antibody (Dako, Denmark).

    Techniques: Quantitative RT-PCR, Immunohistochemistry, Expressing