vasa Search Results


goat anti vasa  (Developmental Studies Hybridoma Bank)
97
Developmental Studies Hybridoma Bank goat anti vasa
Goat Anti Vasa, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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goat anti ddx4  (R&D Systems)
93
R&D Systems goat anti ddx4
Goat Anti Ddx4, supplied by R&D Systems, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti ddx4 rabbit polyclonal antibody  (Proteintech)
93
Proteintech anti ddx4 rabbit polyclonal antibody
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Anti Ddx4 Rabbit Polyclonal Antibody, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/anti ddx4 rabbit polyclonal antibody/product/Proteintech
Average 93 stars, based on 1 article reviews
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anti vasa  (Developmental Studies Hybridoma Bank)
97
Developmental Studies Hybridoma Bank anti vasa
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Anti Vasa, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/anti vasa/product/Developmental Studies Hybridoma Bank
Average 97 stars, based on 1 article reviews
anti vasa - by Bioz Stars, 2026-03
97/100 stars
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primary antibody  (R&D Systems)
93
R&D Systems primary antibody
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Primary Antibody, supplied by R&D Systems, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/primary antibody/product/R&D Systems
Average 93 stars, based on 1 article reviews
primary antibody - by Bioz Stars, 2026-03
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anti vasa  (Santa Cruz Biotechnology)
93
Santa Cruz Biotechnology anti vasa
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Anti Vasa, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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chick anti vasa  (Developmental Studies Hybridoma Bank)
97
Developmental Studies Hybridoma Bank chick anti vasa
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Chick Anti Vasa, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti vasa  (R&D Systems)
92
R&D Systems anti vasa
Figure 1. <t>DDX4</t> forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.
Anti Vasa, supplied by R&D Systems, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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vasa  (Novus Biologicals)
94
Novus Biologicals vasa
Primary and secondary antibodies.
Vasa, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti ddx4  (Boster Bio)
92
Boster Bio anti ddx4
Primary and secondary antibodies.
Anti Ddx4, supplied by Boster Bio, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mouse monoclonal antibody against vasa 46f11  (Developmental Studies Hybridoma Bank)
93
Developmental Studies Hybridoma Bank mouse monoclonal antibody against vasa 46f11
Primary and secondary antibodies.
Mouse Monoclonal Antibody Against Vasa 46f11, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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gene exp vasa dr03124942 g1  (Thermo Fisher)
85
Thermo Fisher gene exp vasa dr03124942 g1
Primary and secondary antibodies.
Gene Exp Vasa Dr03124942 G1, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 85/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Figure 1. DDX4 forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 1. DDX4 forms cytoplasmic granules in cancer cells (A) Of the 88 known components of the CB, 22 have also been identified as CGAs (the dotted rectangular box, DDX4 highlighted in red). (B) Immunostaining of different human epithelial tissues with an anti-DDX4 antibody. DDX4 granules are absent from the normal epithelial tissues, but present (black arrows) in the cytoplasm of cancer cells in breast, colon, and lung adenocarcinoma; scale bar: 20 mm. Selected cancer cells are highlighted in the insets; scale bar: 10 mm. (C) Immunostaining of fibrosarcoma and leiomyosarcoma tissues as examples of DDX4+ cancers that are not of epithelial origin. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Immunostaining

Figure 2. DDX4 granules are found in cancer-cell-line-derived xenograft tumors (A) Immunohistochemistry of UT-SCC-14-derived xenograft tumors with an anti-DDX4 antibody. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm. Smaller rectangular box: no primary antibody control. (B) Immunofluorescence of UT-SCC-14 cultured cells and tumors with an anti-DDX4 antibody (red), nuclei are stained with DAPI (gray). DDX4 granules (white arrows) appear in xenograft tumor cells. Neg. Ctrl: no primary antibody. Scale bar: 10 mm. (C) Immunofluorescence of cultured PC3 cells and PC3-derived tumors with an anti-DDX4 antibody (red). DDX4 granules (white arrows) can be detected in tumors. Scale bar: 10 mm. (D) DDX4 IP from PC3 tumors and cells (3 biological replicates each) followed by western blotting. Rabbit IgG was used as a negative control. Graph: DDX4 signal was quantified, and the signal intensities were normalized to the IgG light-chain signal (asterisk) (p = 0.0274, Mann-Whitney U test, 2-tailed). (E) Immunofluorescence of PC3 spheroids with an anti-DDX4 antibody (red). Anti-a-tubulin antibody (green) visualizes cytoplasmic protrusions. White arrows point to selected DDX4 granules. Scale bar: 20 mm. (F) Immunofluorescence of DDX4 (red) in non-treated and puromycin-treated PC3 cells. DAPI (gray) stains the nuclei. Scale bar: 10 mm.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 2. DDX4 granules are found in cancer-cell-line-derived xenograft tumors (A) Immunohistochemistry of UT-SCC-14-derived xenograft tumors with an anti-DDX4 antibody. Selected DDX4 granules are indicated with black arrows. Scale bar: 20 mm. Smaller rectangular box: no primary antibody control. (B) Immunofluorescence of UT-SCC-14 cultured cells and tumors with an anti-DDX4 antibody (red), nuclei are stained with DAPI (gray). DDX4 granules (white arrows) appear in xenograft tumor cells. Neg. Ctrl: no primary antibody. Scale bar: 10 mm. (C) Immunofluorescence of cultured PC3 cells and PC3-derived tumors with an anti-DDX4 antibody (red). DDX4 granules (white arrows) can be detected in tumors. Scale bar: 10 mm. (D) DDX4 IP from PC3 tumors and cells (3 biological replicates each) followed by western blotting. Rabbit IgG was used as a negative control. Graph: DDX4 signal was quantified, and the signal intensities were normalized to the IgG light-chain signal (asterisk) (p = 0.0274, Mann-Whitney U test, 2-tailed). (E) Immunofluorescence of PC3 spheroids with an anti-DDX4 antibody (red). Anti-a-tubulin antibody (green) visualizes cytoplasmic protrusions. White arrows point to selected DDX4 granules. Scale bar: 20 mm. (F) Immunofluorescence of DDX4 (red) in non-treated and puromycin-treated PC3 cells. DAPI (gray) stains the nuclei. Scale bar: 10 mm.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Derivative Assay, Immunohistochemistry, Control, Cell Culture, Staining, Western Blot, Negative Control, MANN-WHITNEY

Figure 3. DDX4 deletion compromises PC3 spheroid formation (A) The sequence of DDX4 gene after CRISPR-Cas9 in PC3 cells to visualize the deleted 103 nt. (B) Agarose gel of genomic PCR of WT and 2 DDX4-null PC3 cell clones (null1 and null2). (C) Proliferation curve of DDX4-null and WT PC3 cells. (D) Bar charts show the percentage of live cells, early apoptotic cells, and late apoptotic cells in WT and DDX4-null PC3 cells (3 replicates each). The chart at right shows only the early and late apoptotic cells. (E) Calcein AM-stained (green) WT and DDX4-null PC3 spheroids at days 5 and 10. Scale bar: 20 mm. (F) Area of spheroids formed by DDX4-null vs. WT PC3 spheroids (day 5: p = 0.000043, day 10: p = 0.000011, Mann-Whitney U test, 2-tailed). (G) Invasive processes (MaxApp in AMIDA) of DDX4-null vs. WT PC3 spheroids (day 5: p = 0.000011, day 10: p = 0.000022, Mann-Whitney U test, 2-tailed). (H) Immunofluorescence on WT and DDX4-null (number of replicates is 10 for each) PC3 spheroids with vimentin antibody (green). Nuclei were stained with DAPI (gray). Scale bar: 20 mm. (I) Calcein AM-stained (green) spheroids derived from WT and DDX4-null PC3 cells overexpressing either GFP or DDX4-GFP. Scale bar: 20 mm.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 3. DDX4 deletion compromises PC3 spheroid formation (A) The sequence of DDX4 gene after CRISPR-Cas9 in PC3 cells to visualize the deleted 103 nt. (B) Agarose gel of genomic PCR of WT and 2 DDX4-null PC3 cell clones (null1 and null2). (C) Proliferation curve of DDX4-null and WT PC3 cells. (D) Bar charts show the percentage of live cells, early apoptotic cells, and late apoptotic cells in WT and DDX4-null PC3 cells (3 replicates each). The chart at right shows only the early and late apoptotic cells. (E) Calcein AM-stained (green) WT and DDX4-null PC3 spheroids at days 5 and 10. Scale bar: 20 mm. (F) Area of spheroids formed by DDX4-null vs. WT PC3 spheroids (day 5: p = 0.000043, day 10: p = 0.000011, Mann-Whitney U test, 2-tailed). (G) Invasive processes (MaxApp in AMIDA) of DDX4-null vs. WT PC3 spheroids (day 5: p = 0.000011, day 10: p = 0.000022, Mann-Whitney U test, 2-tailed). (H) Immunofluorescence on WT and DDX4-null (number of replicates is 10 for each) PC3 spheroids with vimentin antibody (green). Nuclei were stained with DAPI (gray). Scale bar: 20 mm. (I) Calcein AM-stained (green) spheroids derived from WT and DDX4-null PC3 cells overexpressing either GFP or DDX4-GFP. Scale bar: 20 mm.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Sequencing, CRISPR, Agarose Gel Electrophoresis, Clone Assay, Staining, MANN-WHITNEY, Derivative Assay

Figure 4. DDX4 deletion compromises PC3 tumor formation and growth (A) The volume of subcutaneous DDX4-null vs. WT PC3 xenograft tumors; 10 biological replicates each. The tumor progression was followed weekly for 4 weeks (Wk1: p = 0.000411, Wk2: p = 0.000119, Wk3: p = 0.00105, Wk4: p = 0.006798, Mann-Whitney U test, 2-tailed). (B) The weights of dissected DDX4-null vs. WT PC3 tumors (p = 0.0232, Mann-Whitney U test, 2-tailed). (C) Immunofluorescence with an anti-DDX4 antibody (red) validated the absence of DDX4 in DDX4-null PC3 tumor cells. Nuclei were stained with DAPI (gray). Scale bar: 20 mm. (D) Immunofluorescence on DDX4-null and WT PC3 tumors with an anti-vimentin antibody (green). Scale bar: 10 mm. (E) Western blotting of 3 biological replicates of WT and DDX4-null PC3 tumors with an anti-vimentin antibody. b-Actin was used as the loading control. The graph shows the quantification of vimentin signal (normalized to b-actin) (p = 0.0309, Mann-Whitney U test, 2-tailed). Data are represented as mean ± SEM. See also Figures S1 and S2.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 4. DDX4 deletion compromises PC3 tumor formation and growth (A) The volume of subcutaneous DDX4-null vs. WT PC3 xenograft tumors; 10 biological replicates each. The tumor progression was followed weekly for 4 weeks (Wk1: p = 0.000411, Wk2: p = 0.000119, Wk3: p = 0.00105, Wk4: p = 0.006798, Mann-Whitney U test, 2-tailed). (B) The weights of dissected DDX4-null vs. WT PC3 tumors (p = 0.0232, Mann-Whitney U test, 2-tailed). (C) Immunofluorescence with an anti-DDX4 antibody (red) validated the absence of DDX4 in DDX4-null PC3 tumor cells. Nuclei were stained with DAPI (gray). Scale bar: 20 mm. (D) Immunofluorescence on DDX4-null and WT PC3 tumors with an anti-vimentin antibody (green). Scale bar: 10 mm. (E) Western blotting of 3 biological replicates of WT and DDX4-null PC3 tumors with an anti-vimentin antibody. b-Actin was used as the loading control. The graph shows the quantification of vimentin signal (normalized to b-actin) (p = 0.0309, Mann-Whitney U test, 2-tailed). Data are represented as mean ± SEM. See also Figures S1 and S2.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: MANN-WHITNEY, Staining, Western Blot, Control

Figure 5. Transcriptome is misregulated in DDX4-null PC3 cells and DDX4-null PC3 xenograft tumors (A) Hierarchical heatmaps show differentially expressed (|log2FC| R 1, adjusted p value %0.05) genes in DDX4-null vs. WT PC3 cells (left) and xenograft tumors (right). (B) Venn diagram shows the overlap between the genes upregulated in DDX4-null vs. WT PC3 xenograft tumors and cells. (C) Volcano plot shows the differential expression of tumor suppressor genes in DDX4-null vs. WT PC3 tumors, with significantly upregulated (green) and downregulated (orange) genes labeled. (D) Bar chart shows the log2FC (DDX4-null vs. WT tumors) of individually selected genes. (E) Bar chart shows the validation of the selected differentially expressed genes in DDX4-null vs. WT PC3 tumors (number of biological replicates is 3) by qRT-PCR (ADAM12: p = 0.0112, CDH6: p = 0.0161, CDH7: p = 0.0298, CEACAM1: p = 0.0468, SFRP1: p = 0.0293, and CLEC2B: p = 0.0105, Mann-Whitney U test, 2-tailed). (F) Western blotting image of CDH6, CDH1, and CDH2 protein expression in DDX4-null and WT PC3 tumors (3 biological replicates each). b-Actin was used as the loading control. Bar chart shows the quantification of the CDH1, CDH2, and CDH6 protein levels normalized by b-actin signal. CDH1: p = 0.0055, CDH6: p = 0.0004 (Mann-Whitney U test, 2-tailed, 3 biological replicates each). Data are represented as mean ± SEM. See also Figures S3 and S4 and Table S1.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 5. Transcriptome is misregulated in DDX4-null PC3 cells and DDX4-null PC3 xenograft tumors (A) Hierarchical heatmaps show differentially expressed (|log2FC| R 1, adjusted p value %0.05) genes in DDX4-null vs. WT PC3 cells (left) and xenograft tumors (right). (B) Venn diagram shows the overlap between the genes upregulated in DDX4-null vs. WT PC3 xenograft tumors and cells. (C) Volcano plot shows the differential expression of tumor suppressor genes in DDX4-null vs. WT PC3 tumors, with significantly upregulated (green) and downregulated (orange) genes labeled. (D) Bar chart shows the log2FC (DDX4-null vs. WT tumors) of individually selected genes. (E) Bar chart shows the validation of the selected differentially expressed genes in DDX4-null vs. WT PC3 tumors (number of biological replicates is 3) by qRT-PCR (ADAM12: p = 0.0112, CDH6: p = 0.0161, CDH7: p = 0.0298, CEACAM1: p = 0.0468, SFRP1: p = 0.0293, and CLEC2B: p = 0.0105, Mann-Whitney U test, 2-tailed). (F) Western blotting image of CDH6, CDH1, and CDH2 protein expression in DDX4-null and WT PC3 tumors (3 biological replicates each). b-Actin was used as the loading control. Bar chart shows the quantification of the CDH1, CDH2, and CDH6 protein levels normalized by b-actin signal. CDH1: p = 0.0055, CDH6: p = 0.0004 (Mann-Whitney U test, 2-tailed, 3 biological replicates each). Data are represented as mean ± SEM. See also Figures S3 and S4 and Table S1.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Quantitative Proteomics, Labeling, Biomarker Discovery, Quantitative RT-PCR, MANN-WHITNEY, Western Blot, Expressing, Control

Figure 6. DDX4 deletion affects the splicing landscape of cancer cells (A) IP of PC3 tumors (2 biological replicates) with an anti-DDX4 antibody, followed by western blotting with the same antibody. IgG IP was used as the negative control. IgG light and heavy chains are indicated with asterisks. (B) GO term enrichment analysis of the proteins interacting with DDX4 in PC3 xenograft tumors. Bubble plot visualizes the most enriched biological processes selected based on the adjusted p values. Gene ratio: The number of proteins that are associated with the GO term divided by the total number of proteins. Count: represents the number of proteins annotated to the GO term; the size of a bubble dot reflects the number of proteins. (C) Venn diagram illustrating 17 shared components (listed in the rectangular box) between the CB and the DDX4-interacting proteins.

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 6. DDX4 deletion affects the splicing landscape of cancer cells (A) IP of PC3 tumors (2 biological replicates) with an anti-DDX4 antibody, followed by western blotting with the same antibody. IgG IP was used as the negative control. IgG light and heavy chains are indicated with asterisks. (B) GO term enrichment analysis of the proteins interacting with DDX4 in PC3 xenograft tumors. Bubble plot visualizes the most enriched biological processes selected based on the adjusted p values. Gene ratio: The number of proteins that are associated with the GO term divided by the total number of proteins. Count: represents the number of proteins annotated to the GO term; the size of a bubble dot reflects the number of proteins. (C) Venn diagram illustrating 17 shared components (listed in the rectangular box) between the CB and the DDX4-interacting proteins.

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Western Blot, Negative Control

Figure 7. DDX4 has prognostic significance in human cancers (A) Immunohistochemistry of normal head and neck squamous epithelium (HNSE, 3 representative examples) and HNSCC (bottom) with an anti-DDX4 antibody. The cells were counterstained with hematoxylin. HNSCC samples without granular DDX4 staining were scored as negative, while HNSCC samples with DDX4 granules (black arrows) were scored as positive. Scale bar: 20 mm. Survival curve shows 5-year survival (days) for DDX4 (n = 12/46) and DDX4+ (n = 34/46) patients (p = 0.008, log rank test). (B) Immunofluorescence on PC samples with an anti-DDX4 antibody. PC samples without granular DDX4 staining were scored as negative, while the PC samples with prominent DDX4 granules (white arrows) were scored as positive. Scale bar: 20 mm. Survival curve shows the progression-free survival (months) for DDX4

Journal: Cell reports

Article Title: Germline-specific RNA helicase DDX4 forms cytoplasmic granules in cancer cells and promotes tumor growth.

doi: 10.1016/j.celrep.2024.114430

Figure Lengend Snippet: Figure 7. DDX4 has prognostic significance in human cancers (A) Immunohistochemistry of normal head and neck squamous epithelium (HNSE, 3 representative examples) and HNSCC (bottom) with an anti-DDX4 antibody. The cells were counterstained with hematoxylin. HNSCC samples without granular DDX4 staining were scored as negative, while HNSCC samples with DDX4 granules (black arrows) were scored as positive. Scale bar: 20 mm. Survival curve shows 5-year survival (days) for DDX4 (n = 12/46) and DDX4+ (n = 34/46) patients (p = 0.008, log rank test). (B) Immunofluorescence on PC samples with an anti-DDX4 antibody. PC samples without granular DDX4 staining were scored as negative, while the PC samples with prominent DDX4 granules (white arrows) were scored as positive. Scale bar: 20 mm. Survival curve shows the progression-free survival (months) for DDX4

Article Snippet: The supernatant fraction of the lysed tumor sample was first precleared with 15 mL of washed Dynabeads Protein G (10446293, Invitrogen), then the precleared lysate sample was subjected to immunoprecipitation using beads coupled with 4 mg of anti-DDX4 rabbit polyclonal antibody (51042-1-AP, ProteinTech) and negative control rabbit IgG.

Techniques: Immunohistochemistry, Staining

Primary and secondary antibodies.

Journal: International Journal of Molecular Sciences

Article Title: Effect of Temperature on the Development of Stages of Spermatogenesis and the Functionality of Sertoli Cells In Vitro

doi: 10.3390/ijms25042160

Figure Lengend Snippet: Primary and secondary antibodies.

Article Snippet: VASA , Rabbit Polyclonal anti VASA , 0.1805556 , NBP2-24558 , NOVUS biologicals, Littleton, Centennial, CO, USA.

Techniques: