atcc pcs500 050 kit Search Results


bone marrow derived mscs  (ATCC)
95
ATCC bone marrow derived mscs
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Bone Marrow Derived Mscs, supplied by ATCC, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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pcs-500-030  (LGC Standards)
96
LGC Standards pcs-500-030
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Pcs 500 030, supplied by LGC Standards, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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growth factors  (ATCC)
95
ATCC growth factors
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Growth Factors, supplied by ATCC, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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admsc growth kit  (ATCC)
92
ATCC admsc growth kit
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Admsc Growth Kit, supplied by ATCC, 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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growth kit  (ATCC)
99
ATCC growth kit
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Growth Kit, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 99 stars, based on 1 article reviews
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differentiation kit  (ATCC)
99
ATCC differentiation kit
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Differentiation Kit, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 99 stars, based on 1 article reviews
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osteogenic differentiation kit  (ATCC)
93
ATCC osteogenic differentiation kit
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Osteogenic Differentiation Kit, supplied by ATCC, 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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chondrocyte differentiation tool kit  (ATCC)
92
ATCC chondrocyte differentiation tool kit
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Chondrocyte Differentiation Tool Kit, supplied by ATCC, 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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chondrocyte differentiation tool kit - by Bioz Stars, 2026-02
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bone marrow-derived mesenchymal stem cells; normal, human  (ATCC)
96
ATCC bone marrow-derived mesenchymal stem cells; normal, human
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Bone Marrow Derived Mesenchymal Stem Cells; Normal, Human, supplied by ATCC, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bone marrow-derived mesenchymal stem cells; normal, human - by Bioz Stars, 2026-02
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adipose-derived mesenchymal stem cells; normal, human  (ATCC)
96
ATCC adipose-derived mesenchymal stem cells; normal, human
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Adipose Derived Mesenchymal Stem Cells; Normal, Human, supplied by ATCC, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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adipose-derived mesenchymal stem cells; normal, human - by Bioz Stars, 2026-02
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jelly  (ATCC)
95
ATCC jelly
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Jelly, supplied by ATCC, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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jelly - by Bioz Stars, 2026-02
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pcs-500-040  (LGC Standards)
95
LGC Standards pcs-500-040
Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells <t>(MSCs)</t> and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples
Pcs 500 040, supplied by LGC Standards, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells (MSCs) and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples

Journal: Retrovirology

Article Title: Extracellular vesicles from HTLV-1 infected cells modulate target cells and viral spread

doi: 10.1186/s12977-021-00550-8

Figure Lengend Snippet: Functional Effects of HTLV-1 EVs on Angiogenesis and Inflammation. a An angiogenesis assay in technical and biological triplicate was used to determine the effect of distinct HTLV-1 EVs (2 k, 10 k, and 100 k) on tubular formation in a co-culture of mesenchymal stem cells (MSCs) and aortic endothelial cells (AEC). EV-treated cells (1:2000 recipient cell to EV ratio). Positive control cells received complete, undiluted medium. Additional dose of EV treatment was given to the cells at day 4. Representative images were taken at days 3 and 6 showing tubular formation in response to the indicated treatment. b The image processing software WIMASIS was used to calculate the percentage of area covered by tubules (n = 3) on day 3 and day 6. c RT-qPCR results showing env RNA copy numbers of mesenchymal stem cells treated with CEM EVs (control) and different populations of HTLV-1 EVs: 2 k (left panel), 10 k (middle panel), and 100 k (right panel). A set of dashed black vertical lines (---) were used to indicate baseline env RNA copy numbers. A set of dashed red vertical lines ( ) were used to indicate the levels of starting material, suggestive of the minimum env RNA copy numbers necessary for EVs to increase vial spread in MSc. d Western blot analysis for core histones (H3, H2A, H2B, and H4), linker histone (H1) and actin in HUT102 EVs (2 k, 10 k, and 100 k). e GAPDH DNA levels (representative of nucleosomes) in 2 k, 10 k, and 100 k HUT102 EVs treated with proteinase K and DNase/RNase were evaluated by was quantitated by q-PCR. A two-tailed student t-test was used to evaluate statistical significance with “**” for p-values ≤ 0.01, indicating the level of significance relative to untreated (Control) samples

Article Snippet: Bone marrow derived Mesenchymal Stem Cells (MSCs) were cultured in Mesenchymal Stem Cell Basal Medium (ATCC PCS-500–030TM) supplemented with Mesenchymal Stem Cell Growth Kit for Bone Marrow-derived MSCs (ATCC PCS-500-041TM).

Techniques: Functional Assay, Angiogenesis Assay, Co-Culture Assay, Positive Control, Software, Quantitative RT-PCR, Control, Western Blot, Two Tailed Test