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j fibroblast marker cd26  (Bio-Rad)


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    Structured Review

    Bio-Rad j fibroblast marker cd26
    Positive expression of <t>CD26</t> presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers
    J Fibroblast Marker Cd26, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 16 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/j fibroblast marker cd26/product/Bio-Rad
    Average 93 stars, based on 16 article reviews
    j fibroblast marker cd26 - by Bioz Stars, 2026-03
    93/100 stars

    Images

    1) Product Images from "940 nm diode laser induced differentiation of human adipose derived stem cells to temporomandibular joint disc cells"

    Article Title: 940 nm diode laser induced differentiation of human adipose derived stem cells to temporomandibular joint disc cells

    Journal: BMC Biotechnology

    doi: 10.1186/s12896-022-00754-6

    Positive expression of CD26 presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers
    Figure Legend Snippet: Positive expression of CD26 presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers

    Techniques Used: Expressing, Flow Cytometry, Irradiation, Marker, Control

    Flow cytometry results of experimental groups
    Figure Legend Snippet: Flow cytometry results of experimental groups

    Techniques Used: Flow Cytometry, Cytometry

    Differentiation of ADSCs to fibroblasts with 940 nm diode laser confirmed through immunofluorescent microscopic images. The differentiation of ADSCs to fibroblasts in group L at 1-week ( A ) and 2 weeks ( B ) post-irradiation presented as a green fluorescence (FITC) represents the expression of CD26. The nuclear counterstaining DAPI is represented in blue colour. The fluorescence and expression of marker on treated ( A and B ) cells are compared to untreated control ADSCs with no signs of differentiation
    Figure Legend Snippet: Differentiation of ADSCs to fibroblasts with 940 nm diode laser confirmed through immunofluorescent microscopic images. The differentiation of ADSCs to fibroblasts in group L at 1-week ( A ) and 2 weeks ( B ) post-irradiation presented as a green fluorescence (FITC) represents the expression of CD26. The nuclear counterstaining DAPI is represented in blue colour. The fluorescence and expression of marker on treated ( A and B ) cells are compared to untreated control ADSCs with no signs of differentiation

    Techniques Used: Irradiation, Fluorescence, Expressing, Marker, Control



    Similar Products

    j fibroblast marker cd26  (Bio-Rad)
    93
    Bio-Rad j fibroblast marker cd26
    Positive expression of <t>CD26</t> presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers
    J Fibroblast Marker Cd26, supplied by Bio-Rad, 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/j fibroblast marker cd26/product/Bio-Rad
    Average 93 stars, based on 1 article reviews
    j fibroblast marker cd26 - by Bioz Stars, 2026-03
    93/100 stars
    		  Buy from Supplier

    Image Search Results


    Positive expression of CD26 presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers

    Journal: BMC Biotechnology

    Article Title: 940 nm diode laser induced differentiation of human adipose derived stem cells to temporomandibular joint disc cells

    doi: 10.1186/s12896-022-00754-6

    Figure Lengend Snippet: Positive expression of CD26 presented by flow cytometry with 940 nm diode laser. A Expression of CD26 at 1-week post-irradiation presenting percentages of differentiation in all experimental groups. The percentage of expression was higher in LB group at 1-week and B at 2-weeks post-irradiation and group L had the highest expression of CD26 marker compared to control group with no markers

    Article Snippet: Based on the preliminary experimental results from above, the percentage differentiation of ADSCs into fibroblasts and chondrocytes at 1- and 2-weeks was observed post- irradiation with 940 nm diode laser at 5 J. Fibroblast marker CD26 (clone M-A261, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) and chondrocyte marker CD49C (clone P1B5, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) were used to confirm differentiation in all the experimental groups.

    Techniques: Expressing, Flow Cytometry, Irradiation, Marker, Control

    Flow cytometry results of experimental groups

    Journal: BMC Biotechnology

    Article Title: 940 nm diode laser induced differentiation of human adipose derived stem cells to temporomandibular joint disc cells

    doi: 10.1186/s12896-022-00754-6

    Figure Lengend Snippet: Flow cytometry results of experimental groups

    Article Snippet: Based on the preliminary experimental results from above, the percentage differentiation of ADSCs into fibroblasts and chondrocytes at 1- and 2-weeks was observed post- irradiation with 940 nm diode laser at 5 J. Fibroblast marker CD26 (clone M-A261, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) and chondrocyte marker CD49C (clone P1B5, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) were used to confirm differentiation in all the experimental groups.

    Techniques: Flow Cytometry, Cytometry

    Differentiation of ADSCs to fibroblasts with 940 nm diode laser confirmed through immunofluorescent microscopic images. The differentiation of ADSCs to fibroblasts in group L at 1-week ( A ) and 2 weeks ( B ) post-irradiation presented as a green fluorescence (FITC) represents the expression of CD26. The nuclear counterstaining DAPI is represented in blue colour. The fluorescence and expression of marker on treated ( A and B ) cells are compared to untreated control ADSCs with no signs of differentiation

    Journal: BMC Biotechnology

    Article Title: 940 nm diode laser induced differentiation of human adipose derived stem cells to temporomandibular joint disc cells

    doi: 10.1186/s12896-022-00754-6

    Figure Lengend Snippet: Differentiation of ADSCs to fibroblasts with 940 nm diode laser confirmed through immunofluorescent microscopic images. The differentiation of ADSCs to fibroblasts in group L at 1-week ( A ) and 2 weeks ( B ) post-irradiation presented as a green fluorescence (FITC) represents the expression of CD26. The nuclear counterstaining DAPI is represented in blue colour. The fluorescence and expression of marker on treated ( A and B ) cells are compared to untreated control ADSCs with no signs of differentiation

    Article Snippet: Based on the preliminary experimental results from above, the percentage differentiation of ADSCs into fibroblasts and chondrocytes at 1- and 2-weeks was observed post- irradiation with 940 nm diode laser at 5 J. Fibroblast marker CD26 (clone M-A261, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) and chondrocyte marker CD49C (clone P1B5, mouse anti human, Bio Rad Laboratories (Pty) Ltd, South Africa) were used to confirm differentiation in all the experimental groups.

    Techniques: Irradiation, Fluorescence, Expressing, Marker, Control