mouse recombinant gdf 11 Search Results


recombinant human gdf11  (R&D Systems)
94
R&D Systems recombinant human gdf11
Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of <t>GDF11</t> (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.
Recombinant Human Gdf11, supplied by R&D Systems, 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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Average 94 stars, based on 1 article reviews
recombinant human gdf11 - by Bioz Stars, 2026-05
94/100 stars
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anti gdf11 primary antibody  (R&D Systems)
93
R&D Systems anti gdf11 primary antibody
Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of <t>GDF11</t> (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.
Anti Gdf11 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/anti gdf11 primary antibody/product/R&D Systems
Average 93 stars, based on 1 article reviews
anti gdf11 primary antibody - by Bioz Stars, 2026-05
93/100 stars
  Buy from Supplier
gdf11  (R&D Systems)
91
R&D Systems gdf11
Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of <t>GDF11</t> (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.
Gdf11, supplied by R&D Systems, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/gdf11/product/R&D Systems
Average 91 stars, based on 1 article reviews
gdf11 - by Bioz Stars, 2026-05
91/100 stars
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recombinant human gdf 11  (R&D Systems)
90
R&D Systems recombinant human gdf 11
Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of <t>GDF11</t> (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.
Recombinant Human Gdf 11, supplied by R&D Systems, 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/recombinant human gdf 11/product/R&D Systems
Average 90 stars, based on 1 article reviews
recombinant human gdf 11 - by Bioz Stars, 2026-05
90/100 stars
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human, mouse, rat gdf-11 recombinant protein lyophilized  (Innovative Research Inc)
N/A
Human, Mouse, Rat GDF-11 Recombinant Protein Lyophilized from Innovative Research has been recombinantly produced in E. coli. This is a Lyophilized protein buffered in with a purity of Greater than 98% by SDS-PAGE gel and
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recombinant human mouse rat gdf 11 bmp 11 gmp protein cf  (R&D Systems)
N/A
The Recombinant Human Mouse Rat GDF 11 BMP 11 GMP Protein from R D Systems is derived from E coli The Recombinant Human Mouse Rat GDF 11 BMP 11 GMP Protein has been validated for
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recombinant human mouse rat gdf 11 bmp 11 protein  (R&D Systems)
N/A
The Recombinant Human Mouse Rat GDF 11 BMP 11 Protein from R D Systems is derived from E coli The Recombinant Human Mouse Rat GDF 11 BMP 11 Protein has been validated for the following
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recombinant human mouse rat gdf 11 bmp 11 protein cf  (R&D Systems)
N/A
The Recombinant Human Mouse Rat GDF 11 BMP 11 Protein from R D Systems is derived from E coli The Recombinant Human Mouse Rat GDF 11 BMP 11 Protein has been validated for the following
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Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of GDF11 (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.

Journal: Biology

Article Title: Transdifferentiation of Human Fibroblasts into Skeletal Muscle Cells: Optimization and Assembly into Engineered Tissue Constructs through Biological Ligands

doi: 10.3390/biology10060539

Figure Lengend Snippet: Determination of efficacy of C2C12 differentiation in conjunction with the exposure to ligand combinations. C2C12s were differentiated for 7 days and treated with combination ligands of GDF11 (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL for seven additional days. ( A ) Fusion index was calculated from total myotube nuclei vs. total nuclei ( n = 16, mean + SD). ( B ) Multinucleation of C2C12 myotubes were quantified ( n = 11, mean + SD). ( C ) Nuclear density was evaluated from nuclear count per field of 5x microscopy ( n = 4, mean + SD). ( D ) C2C12 exposed to ligand combinations were stained to express nuclear MYOD1 ( n = 6, mean + SD). ( E ) Cells were stained with Ki67, and where similarly quantified based on average total nuclear count ( n = 6, mean + SD). ( F ) ACTN2 and Ki67 immunostaining of control cells. ( G ) Cells exposed to GTF showed decreases in fusion index and myonucleation levels, although no change in nuclear density and Ki67+ expression was detected. ( H ) GTIF supplementation significantly reduced skeletal muscle differentiation parameters fusion index and multinucleation, in addition to decreasing average nuclear density. ( I ) Control C2C12s expressing nuclear MYOD1. ( J ) GTF treatment greatly reduced nuclear fusion and showed limited differentiation capacity while expressing comparable levels of nuclear MYOD1. ( K ) Exposure of C2C12s to GTIF combination significantly inhibited skeletal muscle differentiation. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.

Article Snippet: Proteins utilized included recombinant human Follistatin (Fs, 669-FO-025), recombinant human Myostatin (GDF8, 788-G8-010) or Growth Differentiation factor (GDF8), recombinant human basic Fibroblast Growth Factor 2 (FGF2, 233-FB-025), recombinant human GDF11 (1958-GD-010), recombinant human GDF15 (957-GD-025/CF), recombinant human Bone Morphogenetic Protein 4 (BMP4, 314-BP-010/CF), recombinant human BMP7 (354-BP-010), recombinant human Growth Hormone (hGH, 1067-GH-025), recombinant human Interleukin 6 (IL6, 206-IL-010), recombinant human Tumor Necrosis Factor Alpha (TNF-α, 210-TA-005) (All R&D Systems), and Thymosin β (TOCRIS, 3390).

Techniques: Microscopy, Staining, Immunostaining, Control, Expressing

Effect of ligand combination exposure on differentiation of skeletal muscle cells derived from tHFs. Cells were transduced with MYOD1 fragments and induced to express the skeletal muscle phenotype via the induction of doxycycline and SB431542 over a 7-day period. Ligand combinations of GDF11 (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL were introduced for an additional week, and SB and Dox administration was discontinued. Skeletal muscle cells were fixed and stained on day 14 and characterized by various differentiation and proliferation parameters from 5× microscopy. ( A ) Fusion index of tHFs was evaluated by determining the ratio of myotube nuclei vs total nuclear count ( n = 16, mean + SD). ( B ) Cellular multinucleation was quantified to assess tHF development of differentiation ( n = 22, mean + SD). ( C ) Nuclear density was similarly assessed by quantifying nuclear count per field ( n = 4, mean + SD). ( D ) Nuclear MYOD1 was quantified ( n = 6, mean + SD). ( E ) Ki67 nuclei were also assessed with a nuclear count ( n = 6, mean + SD). ( F ) Control tHF myotubes were immunostained with ACTN2 and Ki67. ( G ) IL6 and TNF-α combination demonstrated significant decrease in differentiation parameters fusion index, multinucleation, myotube length, and diameter , although Ki67+ expression had increased. ( H ) Exposure of tHFs to combined GDF11, TMSB4X, IL6, and TNF-α showed similar results, however nuclear Ki67 expression was unchanged. ( I ) Untreated tHFs with ACTN2 and MYOD1 nuclear stains. ( J ) Cells treated with IF showed a decrease in MYOD1 nuclear expression. ( K ) Additionally, GDF11, TMSB4X, and IL6 exposure yielded similar results with respect to MYOD1+. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.

Journal: Biology

Article Title: Transdifferentiation of Human Fibroblasts into Skeletal Muscle Cells: Optimization and Assembly into Engineered Tissue Constructs through Biological Ligands

doi: 10.3390/biology10060539

Figure Lengend Snippet: Effect of ligand combination exposure on differentiation of skeletal muscle cells derived from tHFs. Cells were transduced with MYOD1 fragments and induced to express the skeletal muscle phenotype via the induction of doxycycline and SB431542 over a 7-day period. Ligand combinations of GDF11 (G), TMSB4X (T), IL6 (I), and TNF-α (F) at 10 ng/mL were introduced for an additional week, and SB and Dox administration was discontinued. Skeletal muscle cells were fixed and stained on day 14 and characterized by various differentiation and proliferation parameters from 5× microscopy. ( A ) Fusion index of tHFs was evaluated by determining the ratio of myotube nuclei vs total nuclear count ( n = 16, mean + SD). ( B ) Cellular multinucleation was quantified to assess tHF development of differentiation ( n = 22, mean + SD). ( C ) Nuclear density was similarly assessed by quantifying nuclear count per field ( n = 4, mean + SD). ( D ) Nuclear MYOD1 was quantified ( n = 6, mean + SD). ( E ) Ki67 nuclei were also assessed with a nuclear count ( n = 6, mean + SD). ( F ) Control tHF myotubes were immunostained with ACTN2 and Ki67. ( G ) IL6 and TNF-α combination demonstrated significant decrease in differentiation parameters fusion index, multinucleation, myotube length, and diameter , although Ki67+ expression had increased. ( H ) Exposure of tHFs to combined GDF11, TMSB4X, IL6, and TNF-α showed similar results, however nuclear Ki67 expression was unchanged. ( I ) Untreated tHFs with ACTN2 and MYOD1 nuclear stains. ( J ) Cells treated with IF showed a decrease in MYOD1 nuclear expression. ( K ) Additionally, GDF11, TMSB4X, and IL6 exposure yielded similar results with respect to MYOD1+. * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001.

Article Snippet: Proteins utilized included recombinant human Follistatin (Fs, 669-FO-025), recombinant human Myostatin (GDF8, 788-G8-010) or Growth Differentiation factor (GDF8), recombinant human basic Fibroblast Growth Factor 2 (FGF2, 233-FB-025), recombinant human GDF11 (1958-GD-010), recombinant human GDF15 (957-GD-025/CF), recombinant human Bone Morphogenetic Protein 4 (BMP4, 314-BP-010/CF), recombinant human BMP7 (354-BP-010), recombinant human Growth Hormone (hGH, 1067-GH-025), recombinant human Interleukin 6 (IL6, 206-IL-010), recombinant human Tumor Necrosis Factor Alpha (TNF-α, 210-TA-005) (All R&D Systems), and Thymosin β (TOCRIS, 3390).

Techniques: Derivative Assay, Transduction, Staining, Microscopy, Control, Expressing

Skeletal muscle tissues were engineered from a composite fibrin/Matrigel hydrogel mixture with mouse skeletal myoblasts C2C12s, and subject to 10 ng/mL biological ligands. C2C12s were encapsulated and differentiated in a fibrin-based hybrid hydrogel over a 7-day period, 10 ng/mL biological ligands GDF11, TMSB4X, IL6 or TNF-α were administered after a week of tissue plating. ( A ) Immunohistochemical staining of C2C12 skeletal muscle constructs with ACTN2 and DAPI, demonstrated high cellular density. ( B ) Skeletal myotubes increased compactness and alignment towards central pillar regions where tensile force is maximal ( C ) Structural organization of C2C12s at pillar regions appeared disrupted due to gel contraction. ( D ) Cross-striated, multinucleated skeletal muscle form condensed tissues as demonstrated with high magnification 60× confocal microscopy. ( E ) Myotube diameter (µm) was not affected by one-week exposure to 10 ng/mL ligands. ( n > 32, mean + SD). ( F ) Nuclear density of skeletal muscle C2C12s within tissue were not impacted with ligand administration. ( n = 6, mean + SD).

Journal: Biology

Article Title: Transdifferentiation of Human Fibroblasts into Skeletal Muscle Cells: Optimization and Assembly into Engineered Tissue Constructs through Biological Ligands

doi: 10.3390/biology10060539

Figure Lengend Snippet: Skeletal muscle tissues were engineered from a composite fibrin/Matrigel hydrogel mixture with mouse skeletal myoblasts C2C12s, and subject to 10 ng/mL biological ligands. C2C12s were encapsulated and differentiated in a fibrin-based hybrid hydrogel over a 7-day period, 10 ng/mL biological ligands GDF11, TMSB4X, IL6 or TNF-α were administered after a week of tissue plating. ( A ) Immunohistochemical staining of C2C12 skeletal muscle constructs with ACTN2 and DAPI, demonstrated high cellular density. ( B ) Skeletal myotubes increased compactness and alignment towards central pillar regions where tensile force is maximal ( C ) Structural organization of C2C12s at pillar regions appeared disrupted due to gel contraction. ( D ) Cross-striated, multinucleated skeletal muscle form condensed tissues as demonstrated with high magnification 60× confocal microscopy. ( E ) Myotube diameter (µm) was not affected by one-week exposure to 10 ng/mL ligands. ( n > 32, mean + SD). ( F ) Nuclear density of skeletal muscle C2C12s within tissue were not impacted with ligand administration. ( n = 6, mean + SD).

Article Snippet: Proteins utilized included recombinant human Follistatin (Fs, 669-FO-025), recombinant human Myostatin (GDF8, 788-G8-010) or Growth Differentiation factor (GDF8), recombinant human basic Fibroblast Growth Factor 2 (FGF2, 233-FB-025), recombinant human GDF11 (1958-GD-010), recombinant human GDF15 (957-GD-025/CF), recombinant human Bone Morphogenetic Protein 4 (BMP4, 314-BP-010/CF), recombinant human BMP7 (354-BP-010), recombinant human Growth Hormone (hGH, 1067-GH-025), recombinant human Interleukin 6 (IL6, 206-IL-010), recombinant human Tumor Necrosis Factor Alpha (TNF-α, 210-TA-005) (All R&D Systems), and Thymosin β (TOCRIS, 3390).

Techniques: Immunohistochemical staining, Staining, Construct, Confocal Microscopy