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recombinant rat vegf 164 protein  (Bio-Techne corporation)


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    Bio-Techne corporation recombinant rat vegf 164 protein
    Recombinant Rat Vegf 164 Protein, supplied by Bio-Techne corporation, used in various techniques. Bioz Stars score: 94/100, based on 42 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/recombinant rat vegf 164 protein/product/Bio-Techne corporation
    Average 94 stars, based on 42 article reviews
    recombinant rat vegf 164 protein - by Bioz Stars, 2026-05
    94/100 stars

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    recombinant rat vegf 164 protein  (Bio-Techne corporation)
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    growth factor vascular endothelial growth factor  (R&D Systems)
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    recombinant rat vegf 164 amino acid form  (R&D Systems)
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    Figure 6. Cultured retinal progenitor cell groups with Top2b overexpression (OE) and knockdown (KD) illustrate altered expression of select chemotactic receptors compared to wildtype cell groups with no Top2b manipulation (WT). Cell groups illustrated significant differences in the expression of selected chemotactic receptors: vascular <t>endothelial</t> growth factor receptor (VEGFR1), fibroblast growth factor receptor (FGFR1), and c-x-c chemokine receptor 4 (CXCR4, receptor for the stromal cell-derived factor 1, SDF-1a, ligand). Statistical significance across the cell groups is denoted by p-value: * < 0.05, ** < 0.01, **** < 0.0001 as via two-way ANOVA tests followed by Dunnett’s post-hoc test
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    Figure 6. Cultured retinal progenitor cell groups with Top2b overexpression (OE) and knockdown (KD) illustrate altered expression of select chemotactic receptors compared to wildtype cell groups with no Top2b manipulation (WT). Cell groups illustrated significant differences in the expression of selected chemotactic receptors: vascular <t>endothelial</t> growth factor receptor (VEGFR1), fibroblast growth factor receptor (FGFR1), and c-x-c chemokine receptor 4 (CXCR4, receptor for the stromal cell-derived factor 1, SDF-1a, ligand). Statistical significance across the cell groups is denoted by p-value: * < 0.05, ** < 0.01, **** < 0.0001 as via two-way ANOVA tests followed by Dunnett’s post-hoc test
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    Figure 4. Induction of <t>VEGF</t> (A,B), angiogenic factors (C) or pro-inflammatory factors (D) in cultured cells in vitro. RAW264.7 cells, NIH3T3 cells or U937 cells were cultured in hypoxic condition (5% or 0.5%) for 8 h (A,C,D) or indicated time period (B). The induction of Vegf (A), angiogenic factors (C) or pro-inflammatory factors (D) was then examined by RT-PCR analyses (A,C,D, n = 6) and the secretion of VEGF by ELISA (B, n = 6). Data represents as Mean and S.E.M. Statistical analysis was done by a non-parametric Mann–Whitney test or by a Kruskal–Wallis test followed by a Steel test. *p < 0.05, **p < 0.01.
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    Figure 6. Cultured retinal progenitor cell groups with Top2b overexpression (OE) and knockdown (KD) illustrate altered expression of select chemotactic receptors compared to wildtype cell groups with no Top2b manipulation (WT). Cell groups illustrated significant differences in the expression of selected chemotactic receptors: vascular endothelial growth factor receptor (VEGFR1), fibroblast growth factor receptor (FGFR1), and c-x-c chemokine receptor 4 (CXCR4, receptor for the stromal cell-derived factor 1, SDF-1a, ligand). Statistical significance across the cell groups is denoted by p-value: * < 0.05, ** < 0.01, **** < 0.0001 as via two-way ANOVA tests followed by Dunnett’s post-hoc test

    Journal: Exploration of BioMat-X

    Article Title: Top2b regulates morphological and migratory properties of retinal progenitor cells in vivo and upon transplantable matrix substrates

    doi: 10.37349/ebmx.2025.101335

    Figure Lengend Snippet: Figure 6. Cultured retinal progenitor cell groups with Top2b overexpression (OE) and knockdown (KD) illustrate altered expression of select chemotactic receptors compared to wildtype cell groups with no Top2b manipulation (WT). Cell groups illustrated significant differences in the expression of selected chemotactic receptors: vascular endothelial growth factor receptor (VEGFR1), fibroblast growth factor receptor (FGFR1), and c-x-c chemokine receptor 4 (CXCR4, receptor for the stromal cell-derived factor 1, SDF-1a, ligand). Statistical significance across the cell groups is denoted by p-value: * < 0.05, ** < 0.01, **** < 0.0001 as via two-way ANOVA tests followed by Dunnett’s post-hoc test

    Article Snippet: Approximately 600 μL of each growth factor vascular endothelial growth factor (VEGF; R&D Systems, Minneapolis, MN, USA, 564-RV), fibroblast growth factor-8 (FGF-8; Invitrogen, Carlsbad, CA, USA, PHG0184), and stromal derived factor 1-a (SDF-1a; Sigma Aldrich, St. Louis, MO, USA, SRP3276) was added to the bottom of separate transwell assays.

    Techniques: Cell Culture, Over Expression, Knockdown, Expressing, Derivative Assay

    Figure 4. Induction of VEGF (A,B), angiogenic factors (C) or pro-inflammatory factors (D) in cultured cells in vitro. RAW264.7 cells, NIH3T3 cells or U937 cells were cultured in hypoxic condition (5% or 0.5%) for 8 h (A,C,D) or indicated time period (B). The induction of Vegf (A), angiogenic factors (C) or pro-inflammatory factors (D) was then examined by RT-PCR analyses (A,C,D, n = 6) and the secretion of VEGF by ELISA (B, n = 6). Data represents as Mean and S.E.M. Statistical analysis was done by a non-parametric Mann–Whitney test or by a Kruskal–Wallis test followed by a Steel test. *p < 0.05, **p < 0.01.

    Journal: Scientific reports

    Article Title: Hypoxic microenvironment as a crucial factor triggering events leading to rupture of intracranial aneurysm.

    doi: 10.1038/s41598-023-32001-z

    Figure Lengend Snippet: Figure 4. Induction of VEGF (A,B), angiogenic factors (C) or pro-inflammatory factors (D) in cultured cells in vitro. RAW264.7 cells, NIH3T3 cells or U937 cells were cultured in hypoxic condition (5% or 0.5%) for 8 h (A,C,D) or indicated time period (B). The induction of Vegf (A), angiogenic factors (C) or pro-inflammatory factors (D) was then examined by RT-PCR analyses (A,C,D, n = 6) and the secretion of VEGF by ELISA (B, n = 6). Data represents as Mean and S.E.M. Statistical analysis was done by a non-parametric Mann–Whitney test or by a Kruskal–Wallis test followed by a Steel test. *p < 0.05, **p < 0.01.

    Article Snippet: :(0123456789) Scientific Reports | (2023) 13:5545 | https://doi.org/10.1038/s41598-023-32001-z slow-release of VEGF was placed on the brain surface (MedGel II from Nitta-gelatin (♯PI9, Osaka Japan) and recombinant human VEGF (1 μg/head, #564-RV-010/CF, lot #CWC0620081) from R&D systems, Inc. (Minneapolis, MN) resolved in phosphate buffered saline containing 0.1% human serum albumin (#A1653-5G, lot #SLBG2676V, Sigma)).

    Techniques: Cell Culture, In Vitro, Reverse Transcription Polymerase Chain Reaction, Enzyme-linked Immunosorbent Assay, MANN-WHITNEY

    Figure 5. Expression of VEGF in rupture-prone intracranial aneurysm (IA) lesions induced in rats. The images of immunofluorescent staining of IA lesions for VEGF (green), the marker for macrophages, CD68 (red), the marker for smooth muscle cell, α-smooth muscle actin (SMA, gray), nuclear staining by DAPI (blue), and merged images are shown. The images from immunohistochemistry without a primary antibody were served as a negative control. Magnified images corresponding to the square in the upper panels are shown in the lower panels. Scale bar: 50 μm.

    Journal: Scientific reports

    Article Title: Hypoxic microenvironment as a crucial factor triggering events leading to rupture of intracranial aneurysm.

    doi: 10.1038/s41598-023-32001-z

    Figure Lengend Snippet: Figure 5. Expression of VEGF in rupture-prone intracranial aneurysm (IA) lesions induced in rats. The images of immunofluorescent staining of IA lesions for VEGF (green), the marker for macrophages, CD68 (red), the marker for smooth muscle cell, α-smooth muscle actin (SMA, gray), nuclear staining by DAPI (blue), and merged images are shown. The images from immunohistochemistry without a primary antibody were served as a negative control. Magnified images corresponding to the square in the upper panels are shown in the lower panels. Scale bar: 50 μm.

    Article Snippet: :(0123456789) Scientific Reports | (2023) 13:5545 | https://doi.org/10.1038/s41598-023-32001-z slow-release of VEGF was placed on the brain surface (MedGel II from Nitta-gelatin (♯PI9, Osaka Japan) and recombinant human VEGF (1 μg/head, #564-RV-010/CF, lot #CWC0620081) from R&D systems, Inc. (Minneapolis, MN) resolved in phosphate buffered saline containing 0.1% human serum albumin (#A1653-5G, lot #SLBG2676V, Sigma)).

    Techniques: Expressing, Staining, Marker, Immunohistochemistry, Negative Control

    Figure 6. Expression of VEGF in human unruptured intracranial aneurysm (IA) lesions. The images of immunofluorescent staining of IA lesions for VEGF (green), nuclear staining by DAPI (blue), and merged images are shown. The images from immunohistochemistry without a primary antibody were served as a negative control. Scale bar: 50 μm.

    Journal: Scientific reports

    Article Title: Hypoxic microenvironment as a crucial factor triggering events leading to rupture of intracranial aneurysm.

    doi: 10.1038/s41598-023-32001-z

    Figure Lengend Snippet: Figure 6. Expression of VEGF in human unruptured intracranial aneurysm (IA) lesions. The images of immunofluorescent staining of IA lesions for VEGF (green), nuclear staining by DAPI (blue), and merged images are shown. The images from immunohistochemistry without a primary antibody were served as a negative control. Scale bar: 50 μm.

    Article Snippet: :(0123456789) Scientific Reports | (2023) 13:5545 | https://doi.org/10.1038/s41598-023-32001-z slow-release of VEGF was placed on the brain surface (MedGel II from Nitta-gelatin (♯PI9, Osaka Japan) and recombinant human VEGF (1 μg/head, #564-RV-010/CF, lot #CWC0620081) from R&D systems, Inc. (Minneapolis, MN) resolved in phosphate buffered saline containing 0.1% human serum albumin (#A1653-5G, lot #SLBG2676V, Sigma)).

    Techniques: Expressing, Staining, Immunohistochemistry, Negative Control

    Figure 7. VEGF-mediated induction of neovessels in subarachnoid space. The sheet for slow-release of VEGF or vehicle was placed on the right or the left of brain surface in the same rat (A) and the induction of vasa vasorum in subarachnoid space was examined. Asterisks indicate the sheets placed on brain surface. Scale bar: 1 mm. The macroscopic image of the brain surface (B) and the histopathological images from hematoxylin– eosin staining from specimen of vehicle- or VEGF-treated side (C) are shown. Dotted circles in (B) indicate the region where the sheet was placed. Noted the reddish appearance only in the VEGF-treated side indicating the induction of neovessels. Magnified images corresponding to the square in the left panels in (C) are shown on the right. Arrows indicate the neovessels induced in subarachnoid space. Scale bar: 50 μm. The images of immunofluorescent staining for the marker for smooth muscle cell, α-smooth muscle actin (SMA, red), nuclear staining by DAPI (blue), and merged images are shown in (D). Magnified images corresponding to the squares in the left panels are shown on the right. Scale bar: 100 μm.

    Journal: Scientific reports

    Article Title: Hypoxic microenvironment as a crucial factor triggering events leading to rupture of intracranial aneurysm.

    doi: 10.1038/s41598-023-32001-z

    Figure Lengend Snippet: Figure 7. VEGF-mediated induction of neovessels in subarachnoid space. The sheet for slow-release of VEGF or vehicle was placed on the right or the left of brain surface in the same rat (A) and the induction of vasa vasorum in subarachnoid space was examined. Asterisks indicate the sheets placed on brain surface. Scale bar: 1 mm. The macroscopic image of the brain surface (B) and the histopathological images from hematoxylin– eosin staining from specimen of vehicle- or VEGF-treated side (C) are shown. Dotted circles in (B) indicate the region where the sheet was placed. Noted the reddish appearance only in the VEGF-treated side indicating the induction of neovessels. Magnified images corresponding to the square in the left panels in (C) are shown on the right. Arrows indicate the neovessels induced in subarachnoid space. Scale bar: 50 μm. The images of immunofluorescent staining for the marker for smooth muscle cell, α-smooth muscle actin (SMA, red), nuclear staining by DAPI (blue), and merged images are shown in (D). Magnified images corresponding to the squares in the left panels are shown on the right. Scale bar: 100 μm.

    Article Snippet: :(0123456789) Scientific Reports | (2023) 13:5545 | https://doi.org/10.1038/s41598-023-32001-z slow-release of VEGF was placed on the brain surface (MedGel II from Nitta-gelatin (♯PI9, Osaka Japan) and recombinant human VEGF (1 μg/head, #564-RV-010/CF, lot #CWC0620081) from R&D systems, Inc. (Minneapolis, MN) resolved in phosphate buffered saline containing 0.1% human serum albumin (#A1653-5G, lot #SLBG2676V, Sigma)).

    Techniques: Staining, Marker