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e2f2 antibody  (Huabio Inc)

 
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    Huabio Inc e2f2 antibody
    E2f2 Antibody, supplied by Huabio Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 90 stars, based on 1 article reviews
    e2f2 antibody - by Bioz Stars, 2026-04
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates <t>E2F2</t> expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.
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    MATN1‐AS1 regulates E2F2 expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.

    Journal: Journal of Cellular and Molecular Medicine

    Article Title: MATN1‐AS1 Promotes Tumour Metastasis and Sunitinib Resistance via E2F2 in Clear Cell Renal Cell Carcinoma

    doi: 10.1111/jcmm.70428

    Figure Lengend Snippet: MATN1‐AS1 regulates E2F2 expression in ccRCC. (A) Heatmap showing DEGs expression profiles of 786‐O cells transfected with control (Control 1–3) or MATN1‐AS1 targeted sequence (sh 1–3). Data were normalised with FPKM. Results were filtered with p < 0.05, |log 2 FC| > 1. (B, C) GSEA of Control and MATN1‐AS1 knocked down groups. (D) Heatmap showing the expression level changes of the E2F family after knocking down MATN1‐AS1. Data were normalised with FPKM. (E) Co‐expression analysis of E2Fs with MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (F) Expression correlation between E2F2 and MATN1‐AS1 in TCGA‐KIRC dataset (Pearson correlation test). (G) E2F2 expression levels in ccRCC and normal tissues in the TCGA‐KIRC dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (H) E2F2 expression levels in ccRCC and normal tissues in the ICGC‐RECA dataset (Data were normalised with log 2 (TPM + 1), Mean ± SEM, Wilcoxon test, *** p < 0.001). (I) Overall survival (OS) curves of E2F2 in ccRCC (Log‐rank test, * p < 0.05). (J, K) GSEA between High‐ and Low‐E2F2 expression individuals from TCGA‐KIRC dataset. (L) E2F2 expression level changes after knocking down MATN1‐AS1. (M) Potential micro‐RNA links between MATN1‐AS1 and E2F2. (N) miR‐214‐5p expression levels in ccRCC and renal tissue from TCGA‐KIRC dataset ( p = 2.2 × 10 −13 ). (O, P) Binding sites schematic diagrams of miR‐214‐5p with E2F2 and MATN1‐AS1. (Q) Dual‐luciferase reporter assay results of MATN1‐AS1 and E2F2 (Mean ± SEM, Student's t ‐test, ns, no significance, ** p < 0.01, *** p < 0.001). (R) E2F2 expression level changes after being treated with miR‐214‐5p mimics.

    Article Snippet: Antibody reagents were anti‐E2F2 (1:1000; bsm‐52641R; Bioss), anti‐SNAI1 (1:1000; 13099‐1‐AP; Proteintech), anti‐SNAI2 (1:1000; 12129‐1‐AP; Proteintech), anti‐Vimentin (1:1000; 10366‐1‐AP; Proteintech), anti‐N‐cadherin (1:1000; 22018‐1‐AP; Proteintech), anti‐E‐cadherin (1:1000; no. 3195; CST), and anti‐GAPDH (1:2000; no. 2118; CST).

    Techniques: Expressing, Transfection, Control, Sequencing, Binding Assay, Luciferase, Reporter Assay

    MATN1‐AS1/miR‐214‐5p/E2F2 axis regulated EMT in ccRCC. (A, B) Cell viability of indicated groups measured with CCK8 assay (Mean ± SEM, Two‐way repeated‐measures analysis of ANOVA with Geisser–Greenhouse correction, ns, no significance, ** p < 0.01, *** p < 0.001). (C) Cell migration and invasion abilities of corresponding groups as measured with the Transwell assay. (D, E) RNA expression level changes of E2F2 after overexpression miR‐214‐5p in 786‐O and A‐498 cell lines. (F, G) RNA expression levels of E2F2 and MATN1‐AS1 in indicated cells. (H, I) E2F2 and EMT biomarkers expression changes across four groups.

    Journal: Journal of Cellular and Molecular Medicine

    Article Title: MATN1‐AS1 Promotes Tumour Metastasis and Sunitinib Resistance via E2F2 in Clear Cell Renal Cell Carcinoma

    doi: 10.1111/jcmm.70428

    Figure Lengend Snippet: MATN1‐AS1/miR‐214‐5p/E2F2 axis regulated EMT in ccRCC. (A, B) Cell viability of indicated groups measured with CCK8 assay (Mean ± SEM, Two‐way repeated‐measures analysis of ANOVA with Geisser–Greenhouse correction, ns, no significance, ** p < 0.01, *** p < 0.001). (C) Cell migration and invasion abilities of corresponding groups as measured with the Transwell assay. (D, E) RNA expression level changes of E2F2 after overexpression miR‐214‐5p in 786‐O and A‐498 cell lines. (F, G) RNA expression levels of E2F2 and MATN1‐AS1 in indicated cells. (H, I) E2F2 and EMT biomarkers expression changes across four groups.

    Article Snippet: Antibody reagents were anti‐E2F2 (1:1000; bsm‐52641R; Bioss), anti‐SNAI1 (1:1000; 13099‐1‐AP; Proteintech), anti‐SNAI2 (1:1000; 12129‐1‐AP; Proteintech), anti‐Vimentin (1:1000; 10366‐1‐AP; Proteintech), anti‐N‐cadherin (1:1000; 22018‐1‐AP; Proteintech), anti‐E‐cadherin (1:1000; no. 3195; CST), and anti‐GAPDH (1:2000; no. 2118; CST).

    Techniques: CCK-8 Assay, Migration, Transwell Assay, RNA Expression, Over Expression, Expressing

    MATN1‐AS1/miR‐214‐5p/E2F2 axis affects tumour metastasis in ccRCC. (A) Four groups of nude mice were subcutaneously injected with response cells, and tumours were removed and imaged. (B) Tumour volumes were measured every 3 days and drawn as a curve plot (Mean ± SEM, Two‐way repeated‐measures ANOVA with Dunnett multiple comparisons test correction, ns, no significance, *** p < 0.001). (C, D) Four groups of nude mice were tail vein‐injected corresponsive cells and imaged after 6 months (Signals were normalised as p/s/cm2/sr, Mean ± SEM, Student's t ‐test, ns, no significance, * p < 0.05). (E) E2F2, N‐cadherin, and E‐cadherin expression levels in four groups of subcutaneously generated tumours as detected by IHC using serial slices.

    Journal: Journal of Cellular and Molecular Medicine

    Article Title: MATN1‐AS1 Promotes Tumour Metastasis and Sunitinib Resistance via E2F2 in Clear Cell Renal Cell Carcinoma

    doi: 10.1111/jcmm.70428

    Figure Lengend Snippet: MATN1‐AS1/miR‐214‐5p/E2F2 axis affects tumour metastasis in ccRCC. (A) Four groups of nude mice were subcutaneously injected with response cells, and tumours were removed and imaged. (B) Tumour volumes were measured every 3 days and drawn as a curve plot (Mean ± SEM, Two‐way repeated‐measures ANOVA with Dunnett multiple comparisons test correction, ns, no significance, *** p < 0.001). (C, D) Four groups of nude mice were tail vein‐injected corresponsive cells and imaged after 6 months (Signals were normalised as p/s/cm2/sr, Mean ± SEM, Student's t ‐test, ns, no significance, * p < 0.05). (E) E2F2, N‐cadherin, and E‐cadherin expression levels in four groups of subcutaneously generated tumours as detected by IHC using serial slices.

    Article Snippet: Antibody reagents were anti‐E2F2 (1:1000; bsm‐52641R; Bioss), anti‐SNAI1 (1:1000; 13099‐1‐AP; Proteintech), anti‐SNAI2 (1:1000; 12129‐1‐AP; Proteintech), anti‐Vimentin (1:1000; 10366‐1‐AP; Proteintech), anti‐N‐cadherin (1:1000; 22018‐1‐AP; Proteintech), anti‐E‐cadherin (1:1000; no. 3195; CST), and anti‐GAPDH (1:2000; no. 2118; CST).

    Techniques: Injection, Expressing, Generated

    Knocking down MATN1‐AS1 reversed drug resistance in sunitinib resistance ccRCC. (A, B) GSEA of drug resistance signalling pathway. (C) DEGs between sunitinib resistance ccRCC cells and non‐treated cells of the GSE216494 dataset (|FDR| < 1, p < 0.05 was defined as non‐significance expressed genes filter criteria). (D) MATN1‐AS1 expression levels between sunitinib resistance ccRCC cells and non‐treated cells. (E) Gene ontology analysis of DEGs between sunitinib resistance ccRCC cells and non‐treated cells. (F) Graph diagram of sunitinib resistance A‐498 cell line (A‐498‐R) establishing process. (G) IC50 curves of sunitinib in A‐498 and A‐498‐R cell lines. (Data were presented as mean ± SEM). (H, I) MATN1‐AS1 and E2F2 RNA expression values between A‐498 and A‐498‐R cell lines (Mean ± SEM, Student's t ‐test, ** p < 0.01, *** p < 0.001). (J) E2F2 expression levels of A‐498 and A‐498‐R cells. (K) Knocking down MATN1‐AS1 inhibited cell viability of the A‐498‐R cell line cultured in 10 μM sunitinib (Mean ± SEM, Two‐way ANOVA, *** p < 0.001). (L) Drug‐response curves of sunitinib in MATN1‐AS1 knocked down A‐498‐R cells and non‐treated A‐498‐R cells (Mean ± SEM, Two‐way ANOVA test, *** p < 0.001). (M) Overexpression E2F2 reversed cell viability of the A‐498‐R cell line treated with 10 μM sunitinib (Mean ± SEM, Two‐way ANOVA, ** p < 0.01). (N) Drug‐response curves of sunitinib in E2F2 overexpressed A‐498‐R cells and non‐treated A‐498‐R cells (Mean ± SEM, Two‐way ANOVA test, *** p < 0.001). (O) Drug‐response curves of sunitinib in indicated groups (Mean ± SEM, Two‐way ANOVA test, ns, no significance, *** p < 0.001).

    Journal: Journal of Cellular and Molecular Medicine

    Article Title: MATN1‐AS1 Promotes Tumour Metastasis and Sunitinib Resistance via E2F2 in Clear Cell Renal Cell Carcinoma

    doi: 10.1111/jcmm.70428

    Figure Lengend Snippet: Knocking down MATN1‐AS1 reversed drug resistance in sunitinib resistance ccRCC. (A, B) GSEA of drug resistance signalling pathway. (C) DEGs between sunitinib resistance ccRCC cells and non‐treated cells of the GSE216494 dataset (|FDR| < 1, p < 0.05 was defined as non‐significance expressed genes filter criteria). (D) MATN1‐AS1 expression levels between sunitinib resistance ccRCC cells and non‐treated cells. (E) Gene ontology analysis of DEGs between sunitinib resistance ccRCC cells and non‐treated cells. (F) Graph diagram of sunitinib resistance A‐498 cell line (A‐498‐R) establishing process. (G) IC50 curves of sunitinib in A‐498 and A‐498‐R cell lines. (Data were presented as mean ± SEM). (H, I) MATN1‐AS1 and E2F2 RNA expression values between A‐498 and A‐498‐R cell lines (Mean ± SEM, Student's t ‐test, ** p < 0.01, *** p < 0.001). (J) E2F2 expression levels of A‐498 and A‐498‐R cells. (K) Knocking down MATN1‐AS1 inhibited cell viability of the A‐498‐R cell line cultured in 10 μM sunitinib (Mean ± SEM, Two‐way ANOVA, *** p < 0.001). (L) Drug‐response curves of sunitinib in MATN1‐AS1 knocked down A‐498‐R cells and non‐treated A‐498‐R cells (Mean ± SEM, Two‐way ANOVA test, *** p < 0.001). (M) Overexpression E2F2 reversed cell viability of the A‐498‐R cell line treated with 10 μM sunitinib (Mean ± SEM, Two‐way ANOVA, ** p < 0.01). (N) Drug‐response curves of sunitinib in E2F2 overexpressed A‐498‐R cells and non‐treated A‐498‐R cells (Mean ± SEM, Two‐way ANOVA test, *** p < 0.001). (O) Drug‐response curves of sunitinib in indicated groups (Mean ± SEM, Two‐way ANOVA test, ns, no significance, *** p < 0.001).

    Article Snippet: Antibody reagents were anti‐E2F2 (1:1000; bsm‐52641R; Bioss), anti‐SNAI1 (1:1000; 13099‐1‐AP; Proteintech), anti‐SNAI2 (1:1000; 12129‐1‐AP; Proteintech), anti‐Vimentin (1:1000; 10366‐1‐AP; Proteintech), anti‐N‐cadherin (1:1000; 22018‐1‐AP; Proteintech), anti‐E‐cadherin (1:1000; no. 3195; CST), and anti‐GAPDH (1:2000; no. 2118; CST).

    Techniques: Expressing, RNA Expression, Cell Culture, Over Expression